CN217876293U - A ventilation unit for environmental monitoring - Google Patents

Abstract

The utility model provides a ventilation device for environmental monitoring, which relates to the technical field of environmental monitoring and comprises a sleeve frame component and a monitoring mechanism, wherein the inner side of the sleeve frame component is provided with a valve adjusting structure assembled by bolts; the utility model discloses mainly utilize main part pipe bottom side inner chamber to cup joint and cup joint the cabin, make and cup joint the cabin and can install the cylinder and use, and the main part pipe is two cavity structures, therefore under normal condition, possess unobstructed ventilation condition, when taking place emergency, start cylinder output power that can be timely lets the inserted bar that the output is connected adjust among cup jointing the cabin, make the inserted bar carry out the closure with first cabin pipe, open the route of second cabin pipe, the net gas filter core among the second cabin pipe can carry out interim filtration purification to external highly polluted air like this, the staff of having guaranteed among the enclosure space has enough time to carry out urgent preparation, the effect of guarantee staff life health has been reached.

Description

A ventilation unit for environmental monitoring

Technical Field

The utility model relates to an environmental monitoring technical field especially relates to a ventilation unit for environmental monitoring.

Background

The environment monitor is suitable for field quantitative determination of polluted air in residential areas, room air, indoor air, production workshops in public places and living places, adopts a high-sensitivity electrochemical sensor principle, combines a single chip microcomputer technology and a network communication technology to collect air samples in detection places, and polluted gas in the air is absorbed by a reagent solution, so that the polluted gas can be rapidly detected, and date, detection time and temperature and humidity data of the detection sites can be displayed.

Current environmental monitor is when using, installs at the building usually, perhaps uses from the not distant region in workplace, among some high-risk polluted enterprises, environmental monitor's ventilation unit, when taking place emergency, still is normal operating, exists to the staff of ventilation position and harms healthily to and the security can't obtain temporary guarantee, consequently, the utility model provides a ventilation unit for environmental monitor is with the problem of solving existence among the prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a ventilation unit for environmental monitoring, this ventilation unit for environmental monitoring mainly utilizes main part pipe bottom side inner chamber to cup joint the cabin, make and cup joint the cabin and can install the cylinder and use, and the main part pipe is two cavity structures, therefore under normal condition, possess unobstructed ventilation condition, when taking place emergency, start cylinder output power that can be timely lets the inserted bar that the output is connected adjust among cup jointing the cabin, make the inserted bar close first cabin pipe, open the route of second cabin pipe, the net gas filter core among the second cabin pipe can carry out interim filtration purification to external highly polluted air like this, it has enough time to carry out urgent preparation to have guaranteed staff among the enclosure space, the effect of guarantee staff's health has been reached.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: a ventilation device for environmental monitoring comprises a sleeve frame member and a monitoring mechanism, wherein a valve adjusting structure assembled by bolts is arranged on the inner side of the sleeve frame member, a ventilation part in plug connection is arranged on the top side of the valve adjusting structure, a charging assembly is arranged on the top side of the ventilation part, and the monitoring mechanism is arranged on the lateral side of the charging assembly;

monitoring mechanism includes side bracket, monitor body, long connecting rod, slot socket, sensor piece, ventilation cabin and contact patch group, the side bracket sets up the avris of subassembly charges, the inboard of side bracket is pegged graft and is had the monitor body, the both sides of side bracket are through long connecting rod and slot socket bolted connection, the outside block of slot socket is connected with the sensor piece, just the outside of sensor piece is provided with the ventilation cabin, the inner chamber in ventilation cabin is provided with the contact patch group.

The monitoring instrument is further improved in that the monitoring instrument body is electrically connected with the sensor block, and the ventilation cabin is of a porous cavity structure.

The improved structure of the telescopic frame is characterized in that the telescopic frame component comprises a first pressure reducing rod, a bolt sheath, an inclined pull rod, an articulated seat and a second pressure reducing rod, the bolt sheath is arranged at one end of the first pressure reducing rod, the inclined pull rod is hinged to the side of the bolt sheath, and the one end of the inclined pull rod is hinged to the second pressure reducing rod through the articulated seat.

The improved structure of the adjustable valve comprises a main pipe, an anti-seepage sleeve, a sleeving cabin, a cylinder, a plug rod and a bottom mesh enclosure, wherein the main pipe is arranged on the inner side of the bolt sheath, the anti-seepage sleeve is sleeved on the main pipe, the main pipe penetrates through the sleeving cabin provided with the installation cylinder, the output end of the cylinder is connected with the plug rod, and the bottom side of the main pipe is provided with the bottom mesh enclosure assembled by bolts.

The improved ventilation component comprises a plug connection rod, an upper pipe body, a first cabin pipe, a second cabin pipe, a first clamping net, a second clamping net, a gas purification filter element, a wind ring and an exhaust fan, wherein the upper pipe body is in plug connection with the main pipe in a plug connection mode, the inner cavity of the upper pipe body and the inner cavity of the main pipe are connected with the two ends of the first cabin pipe and the second cabin pipe, the first clamping net is arranged at the inner edge side end of the first cabin pipe, the second clamping net is arranged at the inner edge side end of the second cabin pipe, the gas purification filter element is clamped at the inner edge side of the second clamping net, and the wind rings for installing the exhaust fan are arranged at the two ends of the upper pipe body.

The improved solar photovoltaic charging device is characterized in that the charging assembly comprises a top support, a baffle, an upper support, a solar photovoltaic panel and a reverse conducting wire, the top support is arranged on the top side of the upper pipe body, the baffle is arranged on the side of the top support, the upper support is arranged on the top of the top support, and the solar photovoltaic panel for installing the reverse conducting wire is arranged at the upper end of the upper support.

The utility model has the advantages that:

the utility model discloses mainly utilize main part pipe bottom side inner chamber to cup joint and cup joint the cabin, make and cup joint the cabin and can install the cylinder and use, and the main part pipe is two cavity structures, therefore under normal condition, possess unobstructed ventilation condition, when taking place emergency, start cylinder output power that can be timely lets the inserted bar that the output is connected adjust among cup jointing the cabin, make the inserted bar carry out the closure with first cabin pipe, open the route of second cabin pipe, the net gas filter core among the second cabin pipe can carry out interim filtration purification to external highly polluted air like this, the staff of having guaranteed among the enclosure space has enough time to carry out urgent preparation, the effect of guarantee staff life health has been reached.

Drawings

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

fig. 2 is a schematic bottom perspective view of the present invention;

fig. 3 is a schematic view of the cross-sectional three-dimensional structure of the valve adjusting structure of the present invention;

fig. 4 is a schematic view of a three-dimensional structure of a section of the first cabin pipe and the second cabin pipe of the present invention;

fig. 5 is a schematic view of a three-dimensional structure of the monitoring mechanism of the present invention.

Wherein: 1. a jacket frame member; 101. a first pressure reducing bar; 102. a bolt sheath; 103. a diagonal member; 104. a hinged seat; 105. a second pressure reducing bar; 2. a valve adjusting structure; 201. a main body tube; 202. an anti-seepage sleeve; 203. a sleeving cabin; 204. a cylinder; 205. inserting a rod; 206. a bottom mesh enclosure; 3. a ventilation component; 301. inserting connecting rods; 302. a pipe body is arranged; 303. a first cabin pipe; 304. a second cabin pipe; 305. a first screen; 306. a second screen; 307. a gas purifying filter element; 308. a wind ring; 309. an exhaust fan; 4. a charging assembly; 401. a top support; 402. a baffle plate; 403. an upper bracket; 404. a solar photovoltaic panel; 405. a reverse conducting wire; 5. a monitoring mechanism; 501. a side bracket; 502. a monitor body; 503. a long connecting rod; 504. a socket base; 505. a sensor block; 506. a ventilation cabin; 507. a set of contact pads.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments are combined to further detail the present invention, and the present embodiment is only used to explain the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to fig. 1-5, the present embodiment provides a ventilation device for environmental monitoring, which includes a frame member 1 and a monitoring mechanism 5, wherein a bolt-assembled valve adjusting structure 2 is disposed on an inner side of the frame member 1, a ventilation component 3 is disposed on a top side of the valve adjusting structure 2, the ventilation component 3 is connected by plugging, a charging assembly 4 is disposed on a top side of the ventilation component 3, and the monitoring mechanism 5 is disposed on a side of the charging assembly 4;

monitoring mechanism 5 includes side bracket 501, monitor body 502, long connecting rod 503, slot seat 504, sensor piece 505, ventilate cabin 506 and contact chip group 507, side bracket 501 sets up the avris at charging assembly 4, monitor body 502 is pegged graft to side bracket 501's inboard, side bracket 501's both sides are through long connecting rod 503 and slot seat 504 bolted connection, the outside block of slot seat 504 is connected with sensor piece 505, and the outside of sensor piece 505 is provided with ventilate cabin 506, the inner chamber of ventilating cabin 506 is provided with contact chip group 507.

The monitor body 502 is electrically connected with the sensor block 505, and the ventilation chamber 506 is in a porous chamber structure.

In this embodiment, the monitor body 502 inside the side bracket 501 is supplied with power by the storage battery of the device itself, when the outside air passes through the inner cavity of the ventilation chamber 506, the outside air is contacted by the contact sheet set 507, the contact sheet set 507 reacts to the contact of the air by the chemical property of the contact sheet set 507, the generated reaction inputs the detected data into the monitor body 502 by the sensor block 505 on one side of the ventilation chamber 506, and the monitor body 502 analyzes and processes the surrounding environment to store the data.

The jacket frame member 1 comprises a first pressure reducing rod 101, a bolt sheath 102, a diagonal draw bar 103, an articulated seat 104 and a second pressure reducing rod 105, wherein the bolt sheath 102 is arranged at one end of the first pressure reducing rod 101, the diagonal draw bar 103 is hinged to the side of the bolt sheath 102, and one end of the diagonal draw bar 103 is hinged to the second pressure reducing rod 105 through the articulated seat 104.

In this embodiment, the main tube 201 and the anti-seepage sleeve 202 are used to hermetically sleeve the required sleeved main tube 201 in the selected closed space, and then the first pressure reducing rod 101 is arranged on the top surface of the support by using the bolt sheath 102 at the side of the main tube 201, and then the inclined pull rod 103 at the side of the bolt sheath 102 is hinged with the upper hinge base 104, so that the second pressure reducing rod 105 is supported on the top surface, thereby improving the stability of the device.

The valve adjusting structure 2 comprises a main pipe 201, an anti-seepage sleeve 202, a sleeving cabin 203, an air cylinder 204, a plunger 205 and a bottom net cover 206, wherein the main pipe 201 is arranged on the inner side of the bolt sheath 102, the sleeved anti-seepage sleeve 202 is arranged on the main pipe 201, the main pipe 201 penetrates through the sleeving cabin 203 provided with the air cylinder 204, the output end of the air cylinder 204 is connected with the plunger 205, and the bottom side of the main pipe 201 is provided with the bottom net cover 206 assembled by bolts.

In this embodiment, in a normal state, under the effect of the plunger 205 and the main body tube 201, the first cabin tube 303 is open, the second cabin tube 304 is closed, when the contact sheet group 507 and the sensor block 505 cooperate with the monitor body 502 to detect that the external air is abnormal, the air cylinder 204 is started to output power, so that the output end of the air cylinder 204 drives the plunger 205 to adjust the path of the main body tube 201, the first cabin tube 303 is closed, the second cabin tube 304 is open, the air purifying filter core 307 inside the second cabin tube 304 can effectively purify the abnormal air, so as to ensure the temporary cleanliness of the air inside the closed space, and a worker can effectively treat the air in the shortest time.

The ventilation component 3 comprises a plug connection rod 301, an upper pipe body 302, a first cabin pipe 303, a second cabin pipe 304, a first clamping net 305, a second clamping net 306, a purified air filter element 307, a wind ring 308 and an exhaust fan 309, wherein the upper pipe body 302 is in plug connection with the main pipe 201 through the plug connection rod 301, the two ends of the first cabin pipe 303 and the second cabin pipe 304 are connected with inner cavities of the upper pipe body 302 and the main pipe 201, the inner side end of the first cabin pipe 303 is provided with the first clamping net 305, the inner side end of the second cabin pipe 304 is provided with the second clamping net 306, the inner side end of the second clamping net 306 is provided with the clamped purified air filter element 307, and the two ends of the upper pipe body 302 are provided with the wind ring 308 for installing the exhaust fan 309.

In this embodiment, the upper pipe body 302 is inserted into the top side of the main pipe 201 through the insertion connection rod 301, the first cabin pipe 303 and the second cabin pipe 304 are connected to the inner cavity ends of the upper pipe body 302 and the main pipe 201 in a sleeved manner, and then the exhaust fan 309 at one end of the air ring 308 is started to output power, so that the exhaust fan 309 forms wind power, and outside air enters the main pipe 201 through the air ring 308 and the upper pipe body 302, and finally is input into a relatively closed space through the main pipe 201.

The charging assembly 4 comprises a top support 401, a baffle 402, an upper support 403, a solar photovoltaic panel 404 and a reverse conducting wire 405, the top support 401 is arranged on the top side of the upper pipe body 302, the baffle 402 is arranged on the side of the top support 401, the upper support 403 is arranged on the top of the top support 401, and the solar photovoltaic panel 404 provided with the reverse conducting wire 405 is arranged on the upper end of the upper support 403.

In this embodiment, when the device is in operation, the top support 401 is installed on the top side of the upper tube 302, so that the baffle 402 on the top end side of the top support 401 can achieve the effect of shielding wind and rain, and then the converted electric energy is input into the storage battery of the device through the counter current device connected with the counter current lead 405 through the solar photovoltaic panel 404 on one end of the upper support 403 to be effectively stored.

The working principle of the ventilation device for environment monitoring is as follows: firstly, a main body pipe 201 to be sleeved is sleeved and connected in a sealing mode on a selected closed space by using the main body pipe 201 and an anti-seepage sleeve 202, then a first pressure reducing rod 101 is arranged on the top surface of a support by using a bolt sheath 102 at the side of the main body pipe 201, then a hinge seat 104 is hinged and connected by using a diagonal draw bar 103 at the side of the bolt sheath 102, a second pressure reducing rod 105 is supported on the top surface to improve the stability of the equipment, then an upper pipe body 302 is inserted and connected on the top side of the main body pipe 201 by using an insertion and connection rod 301, a first cabin pipe 303 and a second cabin pipe 304 are sleeved and connected at the inner cavity ends of the upper pipe body 302 and the main body pipe 201, then power is output by starting an exhaust fan 309 at one end of a wind ring 308, so that the external air is formed by wind power of the exhaust fan 309, enters the main body pipe 201 through the wind ring 308 and the upper pipe 302, and finally is input into the relatively closed space through the main body pipe 201, when the device works, the top support 401 is installed on the top side of the upper tube body 302, so that the baffle 402 on the top end side of the top support 401 can achieve the effect of shielding wind and rain, then the converted electric energy is input into the storage battery of the device through the inverse electricity connected with the inverse electricity lead 405 through the solar photovoltaic panel 404 on one end of the upper support 403 to be effectively stored, the storage battery of the device is used for supplying power to the monitor body 502 on the inner side of the side bracket 501, when the external air passes through the inner cavity of the ventilation chamber 506, the external air passes through the contact of the contact sheet group 507, so that the contact sheet group 507 utilizes the chemical property of the contact sheet group 507 to generate reaction on the contact of the air, the generated reaction inputs the detected data into the monitor body 502 through the sensor block 505 on one side of the ventilation chamber 506, and the monitor body 502 analyzes and processes the surrounding environment, in order to store data, under the normal state, under the effect of plunger 205 and main part pipe 201, first cabin pipe 303 is open, second cabin pipe 304 is closed, when contact patch group 507 and sensor piece 505 cooperate and go up the monitor body 502 and detect that external air takes place unusually, start cylinder 204 output power and make cylinder 204 output drive plunger 205 carry out the regulation of route with main part pipe 201, make first cabin pipe 303 closed, second cabin pipe 304 is open, let the inside net gas filter core 307 of second cabin pipe 304 can carry out effectual purification to unusual air, in order to ensure the inside temporary cleanliness factor of air of enclosure, can let the staff carry out effectual processing in the shortest time.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A ventilation device for environmental monitoring, including a jacket structure (1) and a monitoring mechanism (5), characterized in that: a valve adjusting structure (2) assembled by bolts is arranged on the inner side of the frame sleeving member (1), a ventilation part (3) connected in a splicing manner is arranged on the top side of the valve adjusting structure (2), a charging assembly (4) is arranged on the top side of the ventilation part (3), and a monitoring mechanism (5) is arranged on the side of the charging assembly (4);

monitoring mechanism (5) are including side bracket (501), monitor body (502), long connecting rod (503), slot seat (504), sensor piece (505), ventilation cabin (506) and contact patch group (507), side bracket (501) set up the avris of subassembly (4) charges, the inboard of side bracket (501) is pegged graft and is had monitor body (502), the both sides of side bracket (501) are through long connecting rod (503) and slot seat (504) bolted connection, the outside block of slot seat (504) is connected with sensor piece (505), just the outside of sensor piece (505) is provided with ventilation cabin (506), the inner chamber of ventilation cabin (506) is provided with contact patch group (507).

2. A ventilation device for environmental monitoring, according to claim 1, characterized in that: the monitor body (502) is electrically connected with the sensor block (505), and the ventilation chamber (506) is of a porous chamber structure.

3. A ventilation device for environmental monitoring, according to claim 1, characterized in that: the jacket frame member (1) comprises a first pressure reducing rod (101), a bolt sheath (102), a diagonal draw bar (103), an articulated seat (104) and a second pressure reducing rod (105), wherein the bolt sheath (102) is arranged at one end of the first pressure reducing rod (101), the side of the bolt sheath (102) is provided with the diagonal draw bar (103) which is connected through a hinge, and one end of the diagonal draw bar (103) is connected with the second pressure reducing rod (105) through the articulated seat (104).

4. A ventilation device for environmental monitoring, according to claim 3, characterized in that: transfer valve structure (2) including main part pipe (201), prevention of seepage cover (202), cup joint cabin (203), cylinder (204), plunger (205) and end net cover (206), main part pipe (201) set up the interior limit side of bolt sheath (102), be provided with prevention of seepage cover (202) that cup joint on main part pipe (201), main part pipe (201) run through have the cabin (203) of cup jointing of installation cylinder (204), the output of cylinder (204) is connected with plunger (205), the bottom side of main part pipe (201) is provided with the end net cover (206) of bolt assembly.

5. A ventilation device for environmental monitoring, according to claim 4, characterized in that: the ventilating component (3) comprises a plug-in connection rod (301), an upper pipe body (302), a first cabin pipe (303), a second cabin pipe (304), a first clamping net (305), a second clamping net (306), a net-cleaning filter element (307), a wind ring (308) and an exhaust fan (309), the upper pipe body (302) is in plug-in connection with the main body pipe (201) through the plug-in connection rod (301), the two ends of the first cabin pipe (303) and the second cabin pipe (304) are connected with inner cavities of the upper pipe body (302) and the main body pipe (201), the inner edge side end of the first cabin pipe (303) is provided with the first clamping net (305), the inner edge side end of the second cabin pipe (304) is provided with the second clamping net (306), the inner edge side of the second clamping net (306) is provided with the net-cleaning filter element (307), and the two ends of the upper pipe body (302) are provided with the wind ring (308) provided with the exhaust fan (309).

6. A ventilation device for environmental monitoring, according to claim 5, characterized in that: the utility model discloses a solar photovoltaic charging device, including charging assembly (4) and top support (401), baffle (402), upper bracket (403), solar photovoltaic board (404) and contrary electric wire (405), top support (401) set up the top side of upper tube body (302), the top avris of top support (401) is provided with baffle (402), the top of top support (401) is provided with upper bracket (403), just the upper end of upper bracket (403) is provided with solar photovoltaic board (404) of installation contrary electric wire (405).

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