CN113865944A - Industrial toxic waste gas collecting and detecting equipment - Google Patents

Abstract

The invention discloses an industrial toxic waste gas collecting and detecting device, which is structurally provided with an outer box, an inner box, a sliding door, a view port and a control panel, wherein the inner box is positioned inside the outer box, the sliding door and the outer box are in an integrated structure and are movably matched at the top of the sliding door, the view port and the outer box are in an integrated structure, the control panel is fixedly arranged on the side end surface of the outer box, the control panel is driven to vertically move downwards through the telescopic matching of a connecting rod, a pressed block is depressed to expand the distance between movable bodies under the impact of air flow, so that waste gas can conveniently enter, the self continuously rotates and flexibly buffers the abutting force with the side wall of an air inlet cavity by virtue of the toughness of a rotating block and the annular spherical structure of the rotating block, the wall surface is effectively wiped, when a deformation body expands, expands and resets, the air port diameter of the deformation body, and the inner space of a collecting cavity is increased, so that liquid substances under the sliding and tough middle shovel scraping plate of a shovel are timely borne by the scraping block, thereby the air inlet cavity is in a dry state, and the waste gas is prevented from reacting with the air inlet cavity to generate other wastes when water stains exist.

Description

Industrial toxic waste gas collecting and detecting equipment

Technical Field

The invention belongs to the technical field of industrial harmful waste gas control, and particularly relates to an industrial toxic waste gas collecting and detecting device.

Background

With the development of society, chemical plants are continuously built, the generated atmospheric pollution is more serious, most of the waste gas has toxicity, and the direct emission can greatly influence the mind and body of people and the environment, so that people usually collect and detect industrial toxic waste gas, monitor the types and content of pollutants in the waste gas in time, and research a waste gas purification solution in a targeted manner.

Based on the discovery of the inventor, the existing industrial toxic waste gas collecting and detecting equipment has the following defects:

when collecting waste gas and placing the waste gas collection that carries out after the coal burning under the lower environment of temperature with waste gas detection device and when detecting the operation, the ice cold degree of breathing pipe contacts the back with the gas that has certain hot temperature, and the induction port is the tide easily appeared or has the water stain state, because the waste gas after the coal factory burning is sulfur dioxide, it can form the sulfurous acid with the contact of water stain, and then the influence is to the collection and the detection precision of sulfur dioxide waste gas.

Therefore, an industrial toxic waste gas collecting and detecting device is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an industrial toxic waste gas collecting and detecting device to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a poisonous waste gas in industry collects check out test set, its structure is equipped with outer container, inner box, sliding door, can viewport, controls the panel, the inner box is located inside the outer container, sliding door and outer container formula of integration structure and clearance fit are at its top, can viewport formula of integration structure with the outer container, control panel fixed mounting at outer container side end face.

The inner box is provided with a collecting device, a detection head, a data display and a circuit board, wherein the collecting device is arranged at one side end inside the inner box, the circuit board is connected to the tail end of the detection head and matched with the detection head, the data display is connected with the circuit board, and the detection head is movably matched with the side position of the collecting device.

As a further improvement of the invention, the collecting device is provided with an air inlet pipe, collecting cylinders and a rotating frame, the air inlet pipe is communicated with the rotating frame and connected to the side end of the rotating frame, the collecting cylinders are fixedly connected between the rotating frames and communicated, the collecting cylinders are columnar and have a cavity inside, the two air inlet pipes are symmetrically distributed, and the rotating frame can drive the collecting cylinders to rotate.

As a further improvement of the invention, the air inlet pipe is provided with an air inlet cavity, an air transfer cavity, a movable body and an adsorption fan, wherein the air transfer cavity and the air inlet cavity are of an integrated structure and are communicated with each other, the movable body is positioned at two side ends in the air inlet cavity and is in sliding fit with each other, the adsorption fan is movable in the air transfer cavity, the interiors of the air inlet cavity and the air transfer cavity are both in a cylindrical cavity state, and the movable body can vertically slide to a certain extent.

As a further improvement of the invention, the movable body is provided with a support plate, a connecting rod and a displacement body, the lower end of the connecting rod is fixedly connected with the support plate, the upper end of the connecting rod is connected with the bottom of the displacement body and is movably matched with the bottom of the displacement body, the support plate is a plate object with an empty opening in the middle, the connecting rod has vertical flexibility, two displacement bodies are symmetrically arranged, and the displacement bodies and the connecting rod are matched with each other to form one group and are provided with two groups.

As a further improvement of the invention, the displacement body is provided with a shoveling plate, a rotating block and a deformation body, the rotating block is movably connected with one side end of the shoveling plate, the deformation body and the shoveling plate are of an integrated structure and are arranged at the other side end of the shoveling plate, the shoveling plate is a fixed vertical rigid plate-shaped object, the rotating block is in a ring-ball shape, seven rotating blocks are arranged, the shoveling plate side ends are vertically and uniformly distributed, the rotating blocks are blocks made of soft rubber materials, the rotating blocks have certain flexibility, and the deformation body can be deformed.

As a further improvement of the invention, the deformation body is provided with a tough block, a pressed block, a pulling block and a collecting cavity, wherein the pressed block is connected with the middle section of the tough block and the pulling block and is movably matched with the middle section of the tough block, the collecting cavity is positioned at the inner side of the pressed block, the tough block is made of a rubber block and has certain toughness, and is provided with an air port, and the pulling block is a silica gel block and has certain toughness support degree.

As a further improvement of the invention, the compression block is provided with a soft block, a linking frame and a top ram, the linking frame is hinged and connected to one side end of the soft block and is movably matched, the top ram penetrates through the middle of the linking frame and is movably matched, one end of the top ram is embedded in the soft block, the soft block is an elastic plastic body block and has excellent elasticity, the top ram is a rod-shaped object which is transversely arranged, a spring is wound on the periphery of the top ram, the linking frame has elasticity, and the elasticity and the softness of the soft block are convenient for the soft block to deform when the soft block is impacted by the top ram.

As a further improvement of the invention, the connecting frame is provided with an expansion frame, a through hole and a resisting rod, the through hole and the expansion frame are of an integrated structure and are positioned between the through hole and the expansion frame, the resisting rod is positioned on the inner side of the expansion frame and is movably matched with the expansion frame, the expansion frame has elasticity, and the resisting rod is a rod-shaped object made of rubber and has flexible deformability.

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

1. the elasticity cooperation through the connecting rod drives its vertical lapse down, under the air current rush, it is shrivelled to receive the piece to some extent, make the expansion of activity body interval, waste gas of being convenient for gets into, by the toughness nature of commentaries on classics piece and the globulus structure form, make its self constantly rotate and nimble counterbalance force of buffering and air intake chamber limit wall, effectively clean the operation to the wall, the deformation body expands when bulging the reset at the activity body, its gas port footpath is wide to be enlarged, and the increase of collection intracavity inner space, make the liquid material of scraping down in the scraper slides in time born by the tough piece, thereby make the air intake intracavity be dry state, when avoiding the water stain, waste gas with it reacts and produces other wastes material.

2. Through the elasticity of the soft block, the displacement of the ejector pin is ordered, the spring wound outside the ejector pin is convenient for the reverse impact pressure generated by the spring to act on the soft block, so that the circular deformation of the soft block is facilitated, the telescopic frame is convenient for the spring to have different telescopic lengths along with different abutting positions of the abutting rod on the ejector pin, the abutting force of the abutting rod on the ejector pin is further assisted, the ejector pin can penetrate through the through hole to be folded at a certain angle, so that the position of the soft block is driven to change, the whole bulging position of the pulling block can be conveniently overturned at a small amplitude, and therefore the movable body flexibly controls the opening and closing state of the upper end of the air inlet cavity.

Drawings

Fig. 1 is a schematic structural diagram of an industrial toxic waste gas collecting and detecting device according to the present invention.

Fig. 2 is a schematic view of an internal top structure of an inner box according to the present invention.

FIG. 3 is a schematic diagram of an internal side view of a collection device according to the present invention.

Fig. 4 is a schematic diagram of an internal side view structure of an intake pipe according to the present invention.

Fig. 5 is a schematic view of the inner side view of a movable body according to the present invention.

FIG. 6 is a schematic diagram of an internal side view of a displacement body according to the present invention.

Fig. 7 is a schematic diagram of an internal side view of a variant of the present invention.

FIG. 8 is a schematic diagram of an internal side view of a compression block according to the present invention.

Fig. 9 is a schematic view of an internal side view of a connecting frame according to the present invention.

In the figure: an outer box-1, an inner box-2, a sliding door-3, a visual port-4, a control panel-5, a collecting device-21, a detection head-22, a data display-23, a circuit board-24, an air inlet pipe-211, a collecting cylinder-212, a rotating frame-213, an air inlet cavity-a 1, an air delivery cavity-a 2, a movable body-a 3, an adsorption fan-a 4, a carrier plate-a 31, a connecting rod-a 32, a displacement body-a 33, a scraper-s 1, a rotating block-s 2, a deformation body-s 3, a tough block-s 31, a pressed block-s 32, a pull block-s 33, a collecting cavity-s 34, a soft block-q 1, a connecting frame-q 2, a top impact rod-q 3, a telescopic frame-q 21, a through port-q 22 and a support rod-q 23.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 7:

the invention provides industrial toxic waste gas collecting and detecting equipment which is structurally provided with an outer box 1, an inner box 2, a sliding door 3, a visible port 4 and a control panel 5, wherein the inner box 2 is positioned inside the outer box 1, the sliding door 3 and the outer box 1 are of an integrated structure and are movably matched at the top of the sliding door, the visible port 4 and the outer box 1 are of an integrated structure, and the control panel 5 is fixedly installed on the end face of the side of the outer box 1.

Inner box 2 is equipped with collection device 21, detects head 22, data display 23, circuit board 24, collection device 21 installs at the inside side of inner box 2, circuit board 24 is connected and is being matched with at detection head 22 end, data display 23 is connected with circuit board 24, detect head 22 movable fit and locate at collection device 21 side position.

Wherein, collection device 21 is equipped with intake pipe 211, collecting vessel 212, revolving rack 213, intake pipe 211 link up mutually with revolving rack 213 and connect at its side, collecting vessel 212 fixed connection just link up the setting between revolving rack 213, collecting vessel 212 is the column form, and inside is the cavity state, intake pipe 211 is equipped with two, and is the symmetric distribution, revolving rack 213 can drive collecting vessel 212 and do the rotation, intake pipe 211 sets up with revolving rack 213's link up and is convenient for collect then conveniently detect in the gaseous entering collecting vessel 212 of being convenient for.

The air inlet pipe 211 is provided with an air inlet cavity a1, an air transfer cavity a2, a movable body a3 and an adsorption fan a4, the air transfer cavity a2 and the air inlet cavity a1 are of an integrated structure and are communicated with each other, the movable body a3 is positioned at two inner side ends of the air inlet cavity a1 and is in sliding fit with each other, the adsorption fan a4 moves in the air transfer cavity a2, the air inlet cavity a1 and the air transfer cavity a2 are both in a cylindrical cavity state, the movable body a3 can slide vertically to a certain extent, the adsorption fan a4 rotates to facilitate the adsorption of outside air into the air inlet cavity a1 and the transmission of the outside air to the outer side end of the air transfer cavity a2, and the movable body a3 is forced to displace in the air flow activity, so that the opening and closing of an upper port of the air inlet cavity a1 can be controlled and the side wall surface of the air inlet cavity a1 can be wiped.

The movable body a3 is provided with a carrier plate a31, a connecting rod a32 and a displacement body a33, the lower end of the connecting rod a32 is fixedly connected with the carrier plate a31, the upper end of the connecting rod a32 is connected with and movably matched with the bottom of the displacement body a33, the carrier plate a31 is a plate with an empty center, the connecting rods a32 have vertical flexibility, the displacement bodies a33 are symmetrically arranged, the displacement bodies a33 and the connecting rods a32 are in a group of matching activity, two groups are provided, and the flexibility of the connecting rods a32 is convenient for driving the displacement bodies a33 to lift and displace, so that the opposite ends of the connecting rods a32 slide and wipe.

The displacement body a33 is provided with a shoveling plate s1, a rotating block s2 and a deforming body s3, the rotating block s2 is movably connected to one side end of the shoveling plate s1, the deforming body s3 and the shoveling plate s1 are of an integrated structure and are arranged at the other side end of the shoveling plate s1, the shoveling plate s1 is a fixed vertical hard plate-shaped object, the rotating block s2 is of a ring-ball shape and seven, the side end of the shoveling plate s1 is vertically and uniformly distributed and is a soft rubber block, certain flexibility is achieved, the deforming body s3 can be deformed, lateral collapse of the deforming body s3 under the action of airflow force is facilitated, the shoveling plate s1 drives the rotating block s2 to displace, the rotating block s2 continuously rotates while displacing, flexible contact is achieved on the external object, and a wiping effect is achieved under the action of friction force.

Wherein, morphism body s3 is equipped with tough piece s31, receives piece s32, pulls piece s33, collection and receives chamber s34, receive piece s32 and connect in tough piece s31 and pull the middle part and the clearance fit of piece s33, collection and receive chamber s34 and be located and receive piece s32 inboard, tough piece s31 is the rubber block material, has certain toughness, and from taking the gas port, it is the silica gel material blocky thing to pull piece s33, has certain toughness support degree, receive piece s32 and carry out position change and deformation under tough piece s31, the toughness cooperation of receiving piece s32, be convenient for morphism body s3 whole dent deformation.

The specific use mode and function of the embodiment are as follows: the control panel 5 is adjusted to enable the adsorption fan a4 to rotate in a controlled manner, the air inlet cavity a1 generates inward adsorption, external waste gas is conveniently sucked and conveyed into the collecting cylinder 212 through the air transfer cavity a2, the waste gas collected in the collecting cylinder 212 is induced by the detection head 22 to change ions therein, the detection head is matched with the circuit board 24 to transmit material parameters contained in the waste gas to the data display 23, personnel can observe data values in the data display 23 from the visual port 4 to finish the collection and detection of industrial toxic waste gas, when the waste gas is adsorbed, air flows downwards to flow into the air inlet cavity a1 to generate a certain pushing force on the movable body a3 to enable the movable body a3 to move downwards, the movable body a32 is driven to move downwards in a vertical direction by the telescopic matching of the connecting rod a32, and under the air flow impact, the deformation body s3 is pushed laterally to enable the compression block s32 to be shriveled, when the adsorption force of the waste gas is weakened, under the rebound and expansion change of a connecting rod a32, the shoveling blades s1 are pushed upwards, so that the shoveling blades s1 slide along the inner side wall surface of the air inlet cavity a1, the toughness property and the ring-ball structure of the rotating block s2 enable the shoveling blades to rotate continuously and flexibly buffer the abutting force with the side wall of the air inlet cavity a1, the wall surface is effectively wiped, the gas port diameter of the deforming body s3 is enlarged when the expanding drum of the movable body a3 is reset, the inner space of the collection cavity s34 is enlarged, so that liquid substances scraped during the sliding of the shoveling blades s1 are timely borne by the toughness block s31 and fall into the collection cavity s34 through the gas ports, and the inner part of the air inlet cavity a1 is timely in a dry state, and the waste gas is prevented from reacting with the water stain to generate other waste.

Example 2:

as shown in fig. 8 to 9:

the compression block s32 is provided with a soft block q1, an engaging frame q2 and a jacking rod q3, the engaging frame q2 is hinged to one side end of the soft block q1 and is movably matched, the jacking rod q3 penetrates through the middle of the engaging frame q2 and is movably matched, one end of the jacking rod q3 is embedded into the soft block q1, the soft block q1 is an elastic plastic body material block and has excellent elasticity, the jacking rod q3 is a transversely-placed rod-shaped object, a spring is wound on the periphery of the jacking rod q3, the engaging frame q2 has telescopic property, the elastic softness of the soft block q1 facilitates deformation of the soft block q1 when the soft block q3 is impacted, the engaging frame q2 provides bearing force for the jacking rod q3 when the position changes, and the jacking rod q3 is assisted to impact the soft block q1 to generate various form changes.

Wherein, link up frame q2 is equipped with expansion bracket q21, runs through mouth q22, supports pole q23, it just is located between its interval to run through mouth q22 and expansion bracket q21 for the integral structure, it is inboard and the clearance fit that support pole q23 is located expansion bracket q21, expansion bracket q21 has the elasticity, support pole q23 is rubber material shaft-like thing, has flexible deformability, support pole q23 and the inboard side wall of expansion bracket q21 touch and connect, supplementary cooperation its flexible change, and support pole q23 and act on the foreign object, have the power of supporting to the foreign object.

The specific use mode and function of the embodiment are as follows: the elastic degree of the soft block q1 drives the jacking rod q3 to move after being pressed, the spring wound outside the jacking rod q3 is convenient for the generated reverse impact pressure to act on the soft block q1, so that the soft block q1 can be beneficial to cyclic deformation, the telescopic property of the telescopic frame q21 is convenient for the telescopic frame q21 to have different telescopic lengths along with different pressing positions of the butting rod q23 on the jacking rod q3, the butting force of the butting rod q23 on the jacking rod q3 is further assisted, the jacking rod q3 can penetrate through the through hole q22 to be folded at a certain angle, the position of the soft block q1 is driven to change, the overall bulging position of the pulling block s33 can be turned over at a small amplitude, and the movable body a3 can flexibly control the opening and closing state of the upper end of the air inlet cavity a 1.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (8)

1. The utility model provides a detection equipment is collected to poisonous waste gas in industry, its structure is equipped with outer container (1), inner box (2), sliding door (3), can viewport (4), controls panel (5), inner box (2) are located inside outer container (1), sliding door (3) and outer container (1) be the integrated structure and clearance fit at its top, can viewport (4) and outer container (1) be the integrated structure, control panel (5) fixed mounting at outer container (1) side end face, its characterized in that:

inner box (2) are equipped with collection device (21), detect head (22), data display (23), circuit board (24), a side is installed in inner box (2) in collection device (21), circuit board (24) are connected and are examined head (22) end and cooperate, data display (23) are connected with circuit board (24), it locates at collection device (21) side position to detect head (22) clearance fit.

2. The industrial toxic waste gas collecting and detecting device according to claim 1, wherein: the collecting device (21) is provided with an air inlet pipe (211), a collecting cylinder (212) and a rotating frame (213), the air inlet pipe (211) is communicated with the rotating frame (213) and connected to the side end of the rotating frame, and the collecting cylinder (212) is fixedly connected between the rotating frames (213) and communicated with the rotating frame.

3. The industrial toxic waste gas collecting and detecting device according to claim 2, wherein: the air inlet pipe (211) is provided with an air inlet cavity (a1), an air transfer cavity (a2), a movable body (a3) and an adsorption fan (a4), the air transfer cavity (a2) and the air inlet cavity (a1) are of an integrated structure and are communicated with each other, the movable body (a3) is located at two inner side ends of the air inlet cavity (a1) and is in sliding fit with the two inner side ends of the air inlet cavity, and the adsorption fan (a4) moves in the air transfer cavity (a 2).

4. The industrial toxic waste gas collecting and detecting device according to claim 3, wherein: the movable body (a3) is provided with a carrier plate (a31), a connecting rod (a32) and a displacement body (a33), the lower end of the connecting rod (a32) is fixedly connected with the carrier plate (a31), and the upper end of the connecting rod (a32) is connected with the bottom of the displacement body (a33) and is movably matched with the bottom of the displacement body.

5. The industrial toxic waste gas collecting and detecting device according to claim 4, wherein: the displacement body (a33) is provided with a shoveling plate (s1), a rotating block (s2) and a deformation body (s3), the rotating block (s2) is movably connected to one side end of the shoveling plate (s1), and the deformation body (s3) and the shoveling plate (s1) are of an integrated structure and are arranged at the other side end of the integrated structure.

6. The industrial toxic waste gas collecting and detecting device according to claim 5, wherein: the deformation body (s3) is provided with a tough block (s31), a pressed block (s32), a pulling block (s33) and a collecting cavity (s34), the pressed block (s32) is connected to the middle sections of the tough block (s31) and the pulling block (s33) and is movably matched with the middle sections of the tough block (s31) and the pulling block (s33), and the collecting cavity (s34) is located on the inner side of the pressed block (s 32).

7. The industrial toxic waste gas collecting and detecting device according to claim 6, wherein: the compression block (s32) is provided with a soft block (q1), a connecting frame (q2) and a jacking rod (q3), the connecting frame (q2) is hinged to one side end of the soft block (q1) and is in movable fit, the jacking rod (q3) penetrates through the middle of the connecting frame (q2) and is in movable fit, and one end of the jacking rod (q3) is embedded into the soft block (q 1).

8. The industrial toxic waste gas collecting and detecting device according to claim 7, wherein: the linking frame (q2) is provided with an expansion frame (q21), a through hole (q22) and a resisting rod (q23), the through hole (q22) and the expansion frame (q21) are of an integrated structure and are located between the intervals of the two, and the resisting rod (q23) is located on the inner side of the expansion frame (q21) and is in movable fit with the expansion frame.

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