CN112161848A - Automatic volatile organic compound detection equipment for preventing and treating pollution - Google Patents

Abstract

The invention relates to the technical field of pollution control, and discloses automatic volatile organic compound detection equipment for pollution control, which comprises a machine body and a sampling bottle, wherein two sides of the inner wall of the machine body are respectively provided with a vertical chute, a placing mechanism is movably connected between the two vertical chutes, a box body is arranged in the placing mechanism, an inner groove is formed in the box body, an air inlet mechanism is fixedly connected to the rear side in the inner groove, the front side of the air inlet mechanism is provided with a position regulating mechanism, the placing mechanism and the position regulating mechanism are matched with the air inlet mechanism, so that polluted gas at an exhaust port can be sucked into the inner groove and collected by the sampling bottle in a rotating disc, the rotating disc rotates towards the direction of a discharging mechanism to enable the sampling bottle to fall into the discharging mechanism, a user can quickly collect the sampling bottle of collected gas, and the user can quickly collect the polluted gas in different time periods, the speed and the accuracy of detecting the polluted gas collected by the user are effectively improved.

Description

Automatic volatile organic compound detection equipment for preventing and treating pollution

Technical Field

The invention relates to the technical field of pollution prevention, in particular to automatic volatile organic compound detection equipment for preventing and treating pollution.

Background

Volatile Organic Compounds (VOCs) are commonly used for representation and are the first letter abbreviations of three words of Volatile Organic Compounds (Volatile Organic Compounds), total Volatile Organic Compounds are sometimes also represented by TVOC, and the Volatile Organic Compounds are important precursors of secondary pollutants such as PM2.5 and ozone and are easy to cause haze phenomena, so that the Volatile Organic Compounds in the air need to be detected.

However, with the continuous development of society, the volatile organic pollutants are mostly discharged from factories or industrial parks, and therefore the volatile organic pollutants discharged from factories or industrial parks need to be detected, at present, most of the discharged volatile organic pollutants are randomly sampled and investigated at the discharge port, and thus the discharged gas is collected only in a single time, so that the detection of the discharged gas cannot be contrasted, and the user samples the discharged gas for many times, which not only improves the complexity of user inspection, but also greatly varies the sampling amount of each sampling, thereby being inconvenient for the user to quickly and accurately sample.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides automatic volatile organic compound detection equipment for preventing and treating pollution, which has the advantages that a user can quickly collect polluted gas in different time periods, the speed and the accuracy of detecting the polluted gas collected by the user are effectively improved, the problem that the user samples the discharged gas for multiple times, the complexity of user inspection is improved, and the sampling quantity of each time can be different greatly, so that the user is inconvenient to quickly and accurately sample.

(II) technical scheme

In order to realize the purposes that the user can rapidly collect the polluted gas in different time periods and effectively improve the speed and the accuracy of the detection of the polluted gas collected by the user, the invention provides the following technical scheme: a volatile organic compounds automated inspection equipment for preventing and treating pollution, including organism and sampling bottle, the organism sets up and is the U word shape, perpendicular form spout has all been seted up to the both sides of organism inner wall, swing joint has the placing mechanism between two perpendicular form spouts, including the box in the placing mechanism, the box is through two perpendicular form spout sliding connection in the organism, the rear side of box sets up including the opening form, the inside groove has been seted up to the inside of box, rear side fixedly connected with air inlet mechanism in the inside groove, air inlet mechanism's front side is provided with position regulation and control mechanism, position regulation and control mechanism is including the rotating disc, the fixed swivelling lever that has cup jointed in the inside of rotating disc, the one end rotation of rotating disc is kept away from to the dwang is connected in the inner wall of inside groove, the rotating disc rotates through the dwang and connects in the inside of inside groove.

Preferably, the air inlet mechanism comprises an air inlet fan, a fixed circular plate, a vertical notch and a rotating roller, two ends of the fixed circular plate are respectively and fixedly connected with two side wall surfaces in the inner groove, a bearing is fixedly embedded in the fixed circular plate, the rotating roller is fixedly sleeved in the air inlet fan, one end of the rotating roller far away from the air inlet fan is fixedly connected in the bearing, the rotating roller is rotatably connected in the inner groove through the bearing, the vertical notch is arranged in the machine body, a consequent toothed rack is arranged in the vertical notch, the consequent toothed rack is fixedly connected with the inner upper wall surface of the left vertical chute, the lower end of the consequent toothed rack penetrates through the upper surface of the box body and movably extends into the vertical notch, an inverse toothed transmission crawler belt is meshed and connected outside the rotating roller, one end of the inverse toothed transmission crawler belt far away from the rotating roller is meshed and connected with a rotating circular shaft, two ends of the rotating circular shaft are respectively and rotatably connected with two side surfaces in the vertical notch, and the end of the reverse tooth-shaped transmission track, which is far away from the rotating roller, is clamped and connected with the vertical notch, a second torsion spring is fixedly sleeved outside the rotating roller, and the end of the second torsion spring, which is far away from the rotating roller, is fixedly connected to the surface of the rear side of the fixed circular plate.

Preferably, still be provided with the induced air board in the inside groove, the induced air board is including well plywood, on the both sides wall face in the inside groove of both ends difference fixed connection of well plywood, notch before the well plywood is close to the surface of induction fan one side and has seted up, preceding notch sets up including being ladder trapezoidal form, the back notch has been seted up to the one end of notch before well plywood is kept away from, the back notch sets up including being hourglass hopper-shaped, is provided with the spacer net between back notch and the preceding notch, the spacer net is inlayed inside well plywood, is linked together through the spacer net between back notch and the preceding notch.

Preferably, the position control mechanism further comprises an empty groove and a reverse toothed rack, the empty groove is formed in the body, the upper end of the reverse toothed rack is fixedly connected to the inner upper wall of the vertical sliding groove on the right side, the lower end of the reverse toothed rack penetrates through the upper surface of the box body and movably extends into the empty groove, the outer portion of the rotating rod is meshed with a sequential toothed transmission track, a transmission shaft is arranged on one side, far away from the rotating rod, in the sequential toothed transmission track, two side wall surfaces of the transmission shaft are rotatably connected to two side walls in the empty groove, the sequential toothed transmission track is rotatably connected to the inner groove through the rotating rod and the transmission shaft, the reverse toothed rack is clamped and connected to one side, far away from the rotating rod, outside the sequential toothed transmission track, the rotating disc is far away from one end of the sequential toothed transmission track, the first torsion spring is fixedly connected to the.

Preferably, still be provided with slewing mechanism in the same direction as the dentate transmission track, including interior cross slot in the slewing mechanism, interior cross slot is seted up in the organism, and be provided with the transmission tooth axle in the interior cross slot, the transmission tooth axle runs through interior cross slot inner wall and extends in the inside of following dentate transmission track, the transmission tooth axle is connected for rotating with following dentate transmission track, the outside fixed cover of transmission tooth axle has connect with the dentate gear, it rotates through the transmission tooth axle to connect in the inside of interior cross slot to follow dentate gear, still be provided with contrary dentate in the interior cross slot, the lower extreme fixed connection of contrary dentate pinion is in the diapire in the organism, and the lower surface that the upper end of contrary dentate run through the box and the activity extends in interior cross slot, contrary dentate is connected for the block with following dentate gear.

Preferably, the supporting mechanism is including outer notch and chute, and outer notch is seted up on the lateral wall face of rotating the disc, and on the intraoral diapire of outer notch was seted up to the chute, sliding connection had the quarter butt in the chute, and the one end fixedly connected with compression spring of chute is kept away from to the quarter butt, and the quarter butt passes through compression spring sliding connection in the inside of chute, and compression spring's one end fixedly connected with arc piece is kept away from to the quarter butt, and the arc piece sets up including being the arc form, and compression spring's surface is seted up including becoming the concavity.

Preferably, the outer right side of organism is provided with feed mechanism, and feed mechanism is including feed plate and right cross slot, and feed plate fixed connection has seted up the feed inlet in the outer right side wall face of organism in the feed plate outside the organism, and the feed inlet is the slope form setting in the feed plate, and right side wall in the organism is seted up to right cross slot, and the inside of right cross slot is linked together with the inside of feed inlet, and the inside swing joint of right cross slot has the sample bottle.

Preferably, the diapire fixedly connected with of right side cross slot plays the board, plays the board setting and is the U font, plays the board and extends via right side cross slot and get into the inside groove in, plays the both sides of board upper surface and has all seted up the draw-in groove, and the draw-in groove setting is including isosceles trapezoid shape.

Preferably, the outside left side fixedly connected with discharge mechanism of organism, discharge mechanism are including play flitch and left cross slot, play flitch fixed connection in the external left side wall of organism, have seted up the discharge gate in the play flitch, and the discharge gate sets up to obtuse angle shape, and left cross slot is seted up in the organism and is avoided in the left side, and the inside of inside groove of left cross slot are linked together, diapire fixedly connected with supporting shoe in the left cross slot, and the supporting shoe is close to the one end fixedly connected with swash plate of box, and the swash plate extends to in the inside groove via left cross slot.

Preferably, the fixed surface of organism front side installs kinetic energy mechanism, kinetic energy mechanism is including driving motor, driving motor fixed connection is on the surface of organism front side, driving motor's upper end swing joint has the button, and the button is signal of telecommunication connection with driving motor, the fixed surface of driving motor output shaft is connected with the stripper plate, the below of stripper plate is provided with two dead levers, two dead levers respectively fixed connection are both sides wall face in the organism, and two dead levers are located the outer front side of box, fixedly connected with round bar between two dead levers, the activity of long board cup joints in the outside of round bar, the long board sets up including growing up the strip, the top that driving motor one end was kept away from to the long board sets up the baffle, baffle fixed connection is on the surface of box front side.

(III) advantageous effects

Compared with the prior art, the invention provides automatic volatile organic compound detection equipment for preventing and treating pollution, which has the following beneficial effects:

1. the automatic volatile organic compound detection equipment for preventing and treating pollution is characterized in that a placing mechanism and a position regulating mechanism are arranged and matched with an air inlet mechanism, a user can drive a box body to move upwards in a machine body by pressing a button to start a driving motor, when the box body moves upwards, a sampling bottle is driven to rotate to the upper part in an inner groove through a rotating disc, meanwhile, a rotating roller is driven to rotate by an inverted tooth-shaped transmission crawler belt to enable a second torsion spring to accumulate force, when the box body rises to the highest degree and descends, the second torsion spring resets to drive an air inlet fan to rotate rapidly in the opposite direction, so that polluted gas at an exhaust port can be sucked into the inner groove and collected by the sampling bottle in the rotating disc, the box body falls under the influence of gravity after the driving motor is closed, and meanwhile, the rotating disc rotates towards the direction of a discharging mechanism to enable the sampling bottle to fall into the discharging mechanism, so that a user, and the user can collect the polluted gas rapidly in different time periods, so that the speed and the accuracy of detecting the polluted gas collected by the user are effectively improved.

2. This a volatile organic compounds automatic check out test set for preventing and treating pollution, through setting up air inlet mechanism, it makes the live-rollers rotate to drive contrary dentate transmission track by following the dentiform rack when the box rises, the live-rollers pivoted can make torsional spring two compress simultaneously, simultaneously when the box descends because the dentiform rack is the setting of non-looks form tooth with the live-rollers, consequently torsional spring two can reset and provide the acceleration of following the time for the live-rollers, make the live-rollers drive air inlet fan rotate fast and inhale the inside groove fast with outside contaminated gas and especially the speed that gets into makes it get into the sample bottle fast and deposit, can avoid unnecessary gas to get into in the sample bottle like this, can guarantee simultaneously that the gas that gets into in the sample bottle at every turn is equal weight.

3. This a volatile organic compounds automatic check out test set for preventing and treating pollution, through setting up the induced draft board, when inlet fan drives gaseous pollutants and gets into the inside groove, at first carry out extensive gathering with gaseous pollutants via the discharge gate, guide gaseous pollutants by separating in the net gets into the back notch afterwards, simultaneously gaseous pollutants pass through when separating the net can produce heat energy to gaseous pollutants's friction via separating net upper grid, heat energy production kinetic energy makes gaseous pollutants not only can be more quick flow, make gaseous pollutants can be accurate by back notch guide positioning simultaneously fall into in the sampling bottle.

4. This a volatile organic compounds automated inspection equipment for preventing and treating pollution, through setting up position regulation and control mechanism, can drive along with tooth form transmission track by contrary cusp rack when raising the box and rotate, can take the sampling bottle of depositing in the feed mechanism automatically and collect gas along tooth form transmission track when the pivoted, and can carry out automatic exhaust function with the sampling bottle at the rotating disc pivoted in-process after collecting gas, the effectual convenience when having improved the user and using.

5. This a volatile organic compounds automated inspection equipment for preventing and treating pollution, through setting up supporting mechanism, when the rotating disc rotates and takes the sampling bottle, the rotating disc drives the sampling bottle that the quarter butt will be located the draw-in groove and takes, and cooperation compression spring can rotate to the right cross slot on the quarter butt with the arc piece when, compression spring can contract by the cambered surface of arc piece, and can receive the sampling bottle to the inside of outer notch, thereby carry out the fixed of position with the sampling bottle, prevent that the sampling bottle from not falling into outer notch intraoral situation and producing.

6. This a volatile organic compounds automated inspection equipment for preventing and treating pollution, through setting up discharge mechanism, when the position that rotates the disc rotation and drive the sample bottle horizontal groove left rotates, drive the sample bottle at the rotation disc and be the downward form of gravity, the sample bottle receives gravity downward and drops to the top of swash plate this moment, and the whereabouts power via the swash plate slope slides to the discharge gate in simultaneously, and the user of being convenient for takes the sample bottle the inspection.

Drawings

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

FIG. 2 is a top cross-sectional view of the housing of FIG. 1 according to the present invention;

FIG. 3 is a rear sectional view of the housing of FIG. 1;

FIG. 4 is a schematic perspective view of the inverted tooth rack of FIG. 1 according to the present invention;

fig. 5 is a partial perspective view of the rotating disk of fig. 2 according to the present invention.

In the figure: 1. a body; 11. sampling a bottle; 12. a vertical chute; 2. a placement mechanism; 21. a box body; 22. an inner tank; 3. a position regulating mechanism; 31. rotating the disc; 32. rotating the rod; 33. a toothed drive track; 34. a reverse toothed rack; 35. an outer notch; 36. an arc block; 37. a short bar; 38. a compression spring; 39. a chute; 310. a first torsion spring; 311. an empty groove; 4. a feeding mechanism; 41. a feeding plate; 42. a feed inlet; 43. a right transverse slot; 45. a spring plate; 46. a card slot; 51. a drive motor; 52. a button; 53. a pressing plate; 54. a long plate; 55. a round bar; 56. a baffle plate; 57. fixing the rod; 6. a discharging mechanism; 61. a discharge plate; 62. a discharge port; 63. a left transverse slot; 65. a sloping plate; 66. a support block; 7. an air intake mechanism; 71. an air intake fan; 72. rotating the circular shaft; 73. fixing the circular plate; 74. a bearing; 75. a second torsion spring; 76. a rotating roller; 77. a rack of a spur gear shape; 78. a vertical notch; 79. a reverse toothed transmission crawler belt; 81. a middle layer plate; 82. a front notch; 83. separating the net; 84. a rear notch; 9. a rotating mechanism; 91. an inner transverse groove; 92. a transmission gear shaft; 93. a spur gear; 94. an inverted tooth toothed plate.

Detailed Description

The present invention will be described in further detail with reference to the drawings, wherein like elements are designated by like reference numerals, wherein the terms "front", "rear", "left", "right", "upper" and "lower", "bottom" and "top" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular element.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: an automatic volatile organic compound detection device for preventing and treating pollution comprises a device body 1 and a sampling bottle 11, wherein the device body 1 is arranged in a U shape, two sides of the inner wall of the device body 1 are respectively provided with an upright chute 12, a placing mechanism 2 is movably connected between the two upright chutes 12, the placing mechanism 2 comprises a box body 21, the box body 21 is slidably connected in the device body 1 through the two upright chutes 12, the rear side of the box body 21 is arranged in an open shape, an inner groove 22 is arranged in the box body 21, the rear side in the inner groove 22 is fixedly connected with an air inlet mechanism 7, the front side of the air inlet mechanism 7 is provided with a position regulating mechanism 3, the position regulating mechanism 3 comprises a rotating disk 31, the rotating disk 31 is fixedly sleeved with a rotating rod 32, one end of the rotating rod 32, far away from the rotating disk 31, is rotatably connected to the inner wall of the inner groove 22, the rotating disk 31, the side wall of the rotating disc 31 is provided with a supporting mechanism for regulating and controlling the position of the sampling bottle 11.

The air intake mechanism 7 comprises an air intake fan 71, a fixed circular plate 73, a vertical notch 78 and a rotating roller 76, wherein two ends of the fixed circular plate 73 are respectively and fixedly connected with two side wall surfaces in the inner groove 22, a bearing 74 is fixedly embedded in the fixed circular plate 73, the rotating roller 76 is fixedly sleeved in the air intake fan 71, one end of the rotating roller 76 far away from the air intake fan 71 is fixedly connected in the bearing 74, the rotating roller 76 is rotatably connected in the inner groove 22 through the bearing 74, the vertical notch 78 is arranged in the machine body 1, a consequent tooth rack 77 is arranged in the vertical notch 78, the consequent tooth rack 77 is fixedly connected with the inner upper wall surface of the left vertical chute 12, the lower end of the consequent tooth rack 77 penetrates through the upper surface of the box body 21 and movably extends into the vertical notch 78, a reversed tooth-shaped transmission crawler 79 is meshed and connected outside the rotating roller 76, one end of the reversed tooth-shaped transmission crawler 79 far away from the rotating roller 76 is meshed and connected with a, two ends of the rotating circular shaft 72 are respectively rotatably connected to two side wall surfaces in the vertical notch 78, one end of the inverted tooth-shaped transmission crawler 79, which is far away from the rotating roller 76, is connected with the vertical notch 78 in a clamping manner, a second torsion spring 75 is fixedly sleeved outside the rotating roller 76, and one end of the second torsion spring 75, which is far away from the rotating roller 76, is fixedly connected to the surface of the rear side of the fixed circular plate 73.

Still be provided with the induced air board in the inside groove 22, the induced air board is including middle level board 81, the both ends difference fixed connection of middle level board 81 is on the both sides wall face in the inside groove 22, middle level board 81 is close to the surface of inlet fan 71 one side and has seted up preceding notch 82, preceding notch 82 sets up including being ladder trapezoidal form, middle level board 81 keeps away from the one end of preceding notch 82 and has seted up back notch 84, back notch 84 sets up including being hopper-shaped, be provided with between back notch 84 and the preceding notch 82 and separate the net 83, it inlays inside middle level board 81 to separate the net 83, be linked together through separating the net 83 between back notch 84 and the preceding notch 82.

The position regulating mechanism 3 further comprises a hollow slot 311 and an inverse dentate rack 34, the hollow slot 311 is arranged in the machine body 1, the upper end of the inverse dentate rack 34 is fixedly connected with the inner upper wall of the right vertical chute 12, the lower end of the inverse dentate rack 34 penetrates through the upper surface of the box body 21 and movably extends into the hollow slot 311, the outer part of the rotating rod 32 is engaged and connected with a consequent dentate transmission crawler 33, one side of the consequent dentate transmission crawler 33, which is far away from the rotating rod 32, is provided with a transmission shaft, two ends of the transmission shaft are rotatably connected with two side wall surfaces in the hollow slot 311, the consequent dentate transmission crawler 33 is rotatably connected in the inner groove 22 through the rotating rod, and the inverted tooth-shaped rack 34 is clamped and connected to one side of the consequent tooth-shaped transmission track 33, which is far away from the rotating rod 32, one end of the rotating disc 31, which is far away from the consequent tooth-shaped transmission track 33, is fixedly connected with a first torsion spring 310, and one end of the first torsion spring 310, which is far away from the rotating disc 31, is fixedly connected to the surface of the front side of the middle layer plate 81.

The clockwise-toothed transmission crawler 33 is also internally provided with a rotating mechanism 9, the rotating mechanism 9 is internally provided with an inner transverse groove 91, the inner transverse groove 91 is arranged in the machine body 1, the inner transverse groove 91 is internally provided with a transmission toothed shaft 92, the transmission toothed shaft 92 penetrates through the inner wall of the inner transverse groove 91 and extends into the clockwise-toothed transmission crawler 33, the transmission toothed shaft 92 is rotatably connected with the clockwise-toothed transmission crawler 33, the outer part of the transmission toothed shaft 92 is fixedly sleeved with a clockwise-toothed gear 93, the clockwise-toothed gear 93 is rotatably connected with the inner transverse groove 91 through the transmission toothed shaft 92, the inner transverse groove 91 is also internally provided with a contra-toothed rack 94, the lower end of the contra-toothed rack 94 is fixedly connected with the bottom wall in the machine body 1, the upper end of the contra-toothed rack 94 penetrates through the lower surface of the box body 21 and movably extends into the inner transverse groove 91, the contra-toothed rack 94 is connected with the clockwise-toothed gear 93 in a clamping manner, and by arranging a position regulating mechanism 3, the contra-toothed rack 34 can drive the contra, along tooth form transmission track 33 can take the sampling bottle 11 of depositing in feed mechanism 4 automatically when the pivoted and collect gas to can carry out automatic exhaust function with sampling bottle 11 at the rotating in-process of rotating disc 31 after collecting gas, the effectual convenience when having improved the user and using.

The supporting mechanism comprises an outer notch 35 and a chute 39, the outer notch 35 is arranged on the side wall surface of the rotating disc 31, the chute 39 is arranged on the bottom wall in the outer notch 35, a short rod 37 is connected in the chute 39 in a sliding manner, a compression spring 38 is fixedly connected at one end of the short rod 37 far away from the chute 39, the short rod 37 is connected in the chute 39 in a sliding manner through the compression spring 38, an arc block 36 is fixedly connected at one end of the short rod 37 far away from the compression spring 38, the arc block 36 is arranged to be arc-shaped, the outer surface of the compression spring 38 is arranged to be concave, by arranging the supporting mechanism, when the rotating disc 31 rotates to take the sampling bottle 11, the rotating disc 31 drives the short rod 37 to take the sampling bottle 11 in the clamping groove 46, and the compression spring 38 and the arc block 36 are matched to rotate to the right transverse groove 43 at the short rod 37, the compression spring 38 can be contracted through the arc surface of the arc block 36, and can receive sample bottle 11 to the inside of outer notch 35 to carry out the fixed of position with sample bottle 11, prevent that sample bottle 11 from not falling into the condition production in outer notch 35.

The outer right side of organism 1 is provided with feed mechanism 4, and feed mechanism 4 is including feed plate 41 and right cross slot 43, and feed plate 41 fixed connection is in the outer right side wall of organism 1, has seted up feed inlet 42 in feed plate 41, and feed inlet 42 is the slope form setting in feed plate 41, and right cross slot 43 is seted up in the right side wall of organism 1, and the inside of right cross slot 43 is linked together with feed inlet 42's inside, and the inside swing joint of right cross slot 43 has sample bottle 11.

The diapire fixedly connected with of right side cross slot 43 plays board 45, plays board 45 and sets up and be the U font, plays board 45 via right side cross slot 43 extend get into inside groove 22 in, plays the both sides of 45 upper surfaces of board and has all seted up draw-in groove 46, draw-in groove 46 sets up including isosceles trapezoid shape.

The left side of the outer part of the machine body 1 is fixedly connected with a discharging mechanism 6, the discharging mechanism 6 comprises a discharging plate 61 and a left transverse groove 63, the discharging plate 61 is fixedly connected with the left side wall of the outer part of the machine body 1, a discharging hole 62 is arranged in the discharging plate 61, the discharging hole 62 is arranged in an obtuse angle shape, the left transverse groove 63 is arranged at the left side of the inner part of the machine body 1 to avoid, the inner part of the left transverse groove 63 is communicated with the inner part of the inner groove 22, a supporting block 66 is fixedly connected with the bottom wall of the inner part of the left transverse groove 63, one end of the supporting block 66 close to the box body 21 is fixedly connected with a sloping plate 65, the sloping plate 65 extends into the inner groove 22 through the left transverse groove 63, through the arrangement of the discharging mechanism 6, when the rotating disc 31 rotates to drive the sampling bottle 11 to rotate to the position of the left transverse groove 63, the rotating disc 31 drives the sampling bottle 11 to be in a downward gravity shape, the user can take the sampling bottle 11 for inspection.

Fixed surface of organism 1 front side installs kinetic energy mechanism, kinetic energy mechanism is including driving motor 51, driving motor 51 fixed connection is in the surface of organism 1 front side, driving motor 51's upper end swing joint has button 52, and button 52 is signal connection with driving motor 51, the fixed surface of driving motor 51 output shaft is connected with stripper plate 53, stripper plate 53's below is provided with two dead levers 57, two dead levers 57 are two side wall surfaces of fixed connection in organism 1 respectively, and two dead levers 57 are located the outer front side of box 21, fixedly connected with round bar 55 between two dead levers 57, long plate 54 activity cup joints in the outside of round bar 55, long plate 54 sets up including growing up the strip, the top that driving motor 51 one end was kept away from to long plate 54 sets up baffle 56, baffle 56 fixed connection is in the surface of box 21 front side.

When in use, the utility model is used,

firstly, the placing mechanism 2 and the position regulating mechanism 3 are arranged to be matched with the air inlet mechanism 7, a user can drive the box body 21 to move upwards in the machine body 1 by pressing the button 52 to start the driving motor 51, when the box body 21 moves upwards, the sampling bottle 11 is driven to rotate to the upper part in the inner groove 22 through the rotating disc 31, meanwhile, the rotating roller 76 is driven to rotate by the inverted tooth-shaped transmission crawler 79 to enable the second torsion spring 75 to accumulate force, when the box body 21 ascends to the highest degree and descends, the second torsion spring 75 resets to drive the air inlet fan 71 to rapidly rotate in the opposite direction, so that the polluted gas at the air outlet can be sucked into the inner groove 22 and collected by the sampling bottle 11 in the rotating disc 31, meanwhile, after the driving motor 51 is closed, the box body 21 falls under the influence of gravity, and simultaneously, the rotating disc 31 rotates towards the direction of the discharging mechanism 6 to enable the sampling bottle 11 to fall into the discharging mechanism 6, so that the user can rapidly collect, and the user can collect the polluted gas rapidly in different time periods, so that the speed and the accuracy of detecting the polluted gas collected by the user are effectively improved.

Secondly, by arranging the air inlet mechanism 7, when the box body 21 ascends, the clockwise toothed rack 77 drives the reverse toothed transmission crawler 79 to rotate the rotating roller 76, the rotating roller 76 rotates and simultaneously compresses the second torsion spring 75, and when the box body 21 descends, the clockwise toothed rack 77 and the rotating roller 76 are arranged in a non-identical toothed shape, so that the second torsion spring 75 can reset and provide clockwise acceleration for the rotating roller 76, the rotating roller 76 drives the air inlet fan 71 to rapidly rotate and rapidly suck external polluted gas into the inner groove 22, particularly the polluted gas enters the sampling bottle 11 at a rapid speed so as to be rapidly stored, and thus, the situation that redundant gas enters the sampling bottle 11 can be avoided, and meanwhile, the situation that the gas entering the sampling bottle 11 every time is equal in quantity can be ensured.

Third, through setting up the induced draft plate, when inlet fan 71 drove the contaminated gas and gets into in the inside groove 22, at first carry out extensive gathering with the contaminated gas via discharge gate 62, guide the contaminated gas afterwards and get into in the notch 84 behind by separating net 83, simultaneously can produce heat energy via the friction of net check on separating net 83 to the contaminated gas when the contaminated gas passes separating net 83, heat energy production kinetic energy makes the contaminated gas not only can be more quick flow, make the contaminated gas can be accurate fall into in the sampling bottle 11 by back notch 84 guide location simultaneously.

The fourth step, through setting up position regulation and control mechanism 3, can drive along with tooth form transmission track 33 and rotate by contrary dentate rack 34 when raising box 21, along with tooth form transmission track 33 can carry out the automation with sampling bottle 11 of depositing in feed mechanism 4 when the pivoted and take and collect gas, and can carry out automatic exhaust function with sampling bottle 11 at rotation disc 31 pivoted in-process after collecting gas, the effectual convenience that improves the user when using.

Fifthly, through setting up supporting mechanism, when rotating disc 31 rotates and takes sampling bottle 11, rotating disc 31 drives quarter butt 37 and will be located the sampling bottle 11 of draw-in groove 46 and take, and cooperation compression spring 38 and arc piece 36 can rotate to right transverse groove 43 on quarter butt 37, compression spring 38 can be contracted by the cambered surface of arc piece 36, and can receive sampling bottle 11 to the inside of outer notch 35, thereby carry out the fixed of position with sampling bottle 11, prevent that sampling bottle 11 from not falling into the situation production in outer notch 35.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A volatile organic compounds automated inspection equipment for preventing and treating pollution, including organism (1) and sampling bottle (11), organism (1) sets up and is U word shape, and perpendicular form spout (12), its characterized in that have all been seted up to the both sides of organism (1) inner wall: two swing joint has placing mechanism (2) between perpendicular form spout (12), including box (21) in placing mechanism (2), box (21) are through two perpendicular form spout (12) sliding connection in organism (1), the rear side of box (21) sets up including the opening form, inside groove (22) have been seted up to the inside of box (21), rear side fixedly connected with air inlet mechanism (7) in inside groove (22), the front side of air inlet mechanism (7) is provided with position regulation and control mechanism (3), position regulation and control mechanism (3) are including rotating disc (31), the fixed cover in inside of rotating disc (31) has cup jointed dwang (32), the one end rotation connection in inside groove (22) of rotating disc (31) is kept away from in dwang (32), rotating disc (31) rotate through dwang (32) and connect in the inside of inside groove (22), be provided with the supporting mechanism who is used for regulating and control sampling bottle (11) position on the lateral wall of rotating disc (31).

2. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 1, wherein: the air inlet mechanism (7) comprises an air inlet fan (71), a fixed circular plate (73), a vertical notch (78) and a rotating roller (76), two ends of the fixed circular plate (73) are respectively and fixedly connected to two side wall surfaces in the inner groove (22), a bearing (74) is fixedly embedded in the fixed circular plate (73), the rotating roller (76) is fixedly sleeved in the air inlet fan (71), one end, far away from the air inlet fan (71), of the rotating roller (76) is fixedly connected to the inside of the bearing (74), the rotating roller (76) is rotatably connected in the inner groove (22) through the bearing (74), the vertical notch (78) is arranged in the machine body (1), a consequent tooth-shaped rack (77) is arranged in the vertical notch (78), the consequent tooth-shaped rack (77) is fixedly connected to the inner upper wall surface of the vertical chute (12) on the left side, and the lower end of the consequent tooth-shaped rack (77) penetrates through the upper surface of the box body (21) and extends into the movable vertical notch (78), the outer meshing of live-rollers (76) is connected with contrary dentate transmission track (79), the one end meshing of keeping away from live-rollers (76) in contrary dentate transmission track (79) is connected with rotation circle axle (72), the both ends of rotating circle axle (72) are rotated respectively and are connected on the both sides wall face in erecting form notch (78), and the one end of keeping away from live-rollers (76) outward of contrary dentate transmission track (79) carries out the block with erecting form notch (78) and is connected, the external fixation of live-rollers (76) has cup jointed torsional spring two (75), the one end fixed connection of the live-rollers (76) is kept away from to torsional spring two (75) is on the surface of fixed plectane (73) rear side.

3. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 1, wherein: still be provided with the induced air board in inside groove (22), the induced air board is including well plywood (81), the both ends difference fixed connection of well plywood (81) is on the both sides wall face in inside groove (22), notch (82) before well plywood (81) are close to the surface of inlet fan (71) one side seted up, preceding notch (82) set up including being ladder shape, back notch (84) have been seted up to the one end that well plywood (81) kept away from preceding notch (82), back notch (84) set up including being hopper-shaped, be provided with between back notch (84) and preceding notch (82) and separate net (83), it inlays inside well plywood (81) to separate net (83), be linked together through separate net (83) between back notch (84) and preceding notch (82).

4. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 1, wherein: the position regulating mechanism (3) further comprises a hollow groove (311) and a reverse toothed rack (34), the hollow groove (311) is arranged in the machine body (1), the upper end of the reverse toothed rack (34) is fixedly connected to the inner upper wall of the right vertical sliding groove (12), the lower end of the reverse toothed rack (34) penetrates through the upper surface of the box body (21) and movably extends into the hollow groove (311), the outer part of the rotating rod (32) is meshed and connected with a forward toothed transmission crawler (33), a transmission shaft is arranged on one side, far away from the rotating rod (32), in the forward toothed transmission crawler (33), two ends of the transmission shaft are rotatably connected to two side wall surfaces in the hollow groove (311), the forward toothed transmission crawler (33) is rotatably connected in the inner groove (22) through the rotating rod (32) and the transmission shaft, and the reverse toothed rack (34) is connected to one side, far away from the rotating rod (32), outside the forward toothed transmission crawler (33), one end of the rotating disc (31), which is far away from the clockwise toothed transmission crawler belt (33), is fixedly connected with a first torsion spring (310), and one end of the first torsion spring (310), which is far away from the rotating disc (31), is fixedly connected to the surface of the front side of the middle layer plate (81).

5. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 4, wherein: the transmission mechanism is characterized in that a rotating mechanism (9) is further arranged in the clockwise tooth-shaped transmission crawler belt (33), an inner transverse groove (91) is formed in the rotating mechanism (9), the inner transverse groove (91) is formed in the machine body (1), a transmission gear shaft (92) is arranged in the inner transverse groove (91), the transmission gear shaft (92) penetrates through the inner wall of the inner transverse groove (91) and extends into the clockwise tooth-shaped transmission crawler belt (33), the transmission gear shaft (92) is rotatably connected with the clockwise tooth-shaped transmission crawler belt (33), a clockwise tooth-shaped gear (93) is fixedly sleeved on the outer portion of the transmission gear shaft (92), the clockwise tooth-shaped gear (93) is rotatably connected into the inner transverse groove (91) through the transmission gear shaft (92), an anticlockwise tooth-shaped toothed plate (94) is further arranged in the inner transverse groove (91), the lower end of the anticlockwise tooth-shaped toothed plate (94) is fixedly connected to the bottom wall of the machine body (1), and the upper end of the anticlockwise tooth-shaped toothed plate (94) penetrates through the lower surface of the box body (, the inverse tooth-shaped toothed plate (94) is connected with the consequent tooth-shaped gear (93) in a clamping way.

6. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 1, wherein: supporting mechanism is including outer notch (35) and chute (39), set up on the lateral wall face of rotating disc (31) outer notch (35), set up on the diapire in outer notch (35) chute (39), sliding connection has quarter butt (37) in chute (39), one end fixedly connected with compression spring (38) of chute (39) are kept away from in quarter butt (37), quarter butt (37) are through compression spring (38) sliding connection in the inside of chute (39), one end fixedly connected with arc piece (36) of compression spring (38) are kept away from in quarter butt (37), arc piece (36) set up including being the arc form, and the surface of compression spring (38) is seted up including becoming the concavity.

7. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 1, wherein: the outer right side of organism (1) is provided with feed mechanism (4), feed mechanism (4) are including feed plate (41) and right cross slot (43), feed plate (41) fixed connection is in the outer right side wall of organism (1), feed inlet (42) have been seted up in feed plate (41), feed inlet (42) are the slope form setting in feed plate (41), right side wall in organism (1) is seted up in right cross slot (43), and the inside of right cross slot (43) is linked together with the inside of feed inlet (42), the inside swing joint of right cross slot (43) has sample bottle (11).

8. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 7, wherein: diapire fixedly connected with bullet board (45) of right side cross slot (43), bullet board (45) set up and are the U font, play board (45) via right side cross slot (43) extend get into inside groove (22) in, draw-in groove (46) have all been seted up to the both sides of bullet board (45) upper surface, draw-in groove (46) set up including isosceles trapezoid shape.

9. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 1, wherein: organism (1) outside left side fixedly connected with discharge mechanism (6), discharge mechanism (6) are including play flitch (61) and left cross slot (63), left side wall outside play flitch (61) fixed connection organism (1), discharge gate (62) have been seted up in play flitch (61), discharge gate (62) set up to obtuse angle shape, left side cross slot (63) are seted up and are avoided in organism (1) left side, the inside of left side cross slot (63) is linked together with the inside of inside groove (22), diapire fixedly connected with supporting shoe (66) in the left side cross slot (63), one end fixedly connected with swash plate (65) that supporting shoe (66) are close to box (21), and swash plate (65) extend to in inside groove (22) via left side cross slot (63).

10. The automatic volatile organic compound detection device for preventing and treating pollution according to claim 1, wherein: the surface of the front side of the machine body (1) is fixedly provided with a kinetic energy mechanism, the kinetic energy mechanism comprises a driving motor (51), the driving motor (51) is fixedly connected to the surface of the front side of the machine body (1), the upper end of the driving motor (51) is movably connected with a button (52), the button (52) is in electric signal connection with the driving motor (51), the surface of an output shaft of the driving motor (51) is fixedly connected with a squeezing plate (53), two fixing rods (57) are arranged below the squeezing plate (53), the two fixing rods (57) are respectively and fixedly connected to two side wall surfaces in the machine body (1), the two fixing rods (57) are positioned on the front side outside the box body (21), a round rod (55) is fixedly connected between the two fixing rods (57), the long plate (54) is movably sleeved outside the round rod (55), the long plate (54) is arranged in a growing strip shape, a baffle (56) is arranged above one end, far away from the driving motor (51, the baffle plate (56) is fixedly connected to the surface of the front side of the box body (21).

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