阅读说明：本技术 一种利用折叠架构的智能化空气数据收集设备 (Utilize intelligent air data collection equipment of folding framework ) 是由 齐未朱 于 2020-11-24 设计创作，主要内容包括：本发明涉及空气数据收集技术领域,提供一种利用折叠架构的智能化空气数据收集设备,包括空气数据收集设备,所述空气数据收集设备的顶端固定连接有采集头部,所述空气数据收集设备的顶端通过采集头部固定连接有驱动架,所述空气数据收集设备的内侧通过驱动架活动连接有通气收集罐,该利用折叠架构的智能化空气数据收集设备,通过螺纹柱转动的过程中,通过连杆之间的摩擦力带动挤压柱向下侧移动,挤压柱推动扭矩弹簧移动至限位断电器,扭矩弹簧向下移动挤压挤压活动柱向两侧移动,使气压通道连接,防止空气回流,使其连接为通路状态,且提示灯亮起,表示单次采集数据完成,则电能带动通电导柱向上侧移动。(The invention relates to the technical field of air data collection, and provides an intelligent air data collection device utilizing a folding framework, which comprises an air data collection device, wherein the top end of the air data collection device is fixedly connected with a collection head, the top end of the air data collection device is fixedly connected with a driving frame through the collection head, the inner side of the air data collection device is movably connected with a ventilation collection tank through the driving frame, the intelligent air data collection device utilizing the folding framework drives an extrusion column to move downwards through friction force between connecting rods in the rotating process of a threaded column, the extrusion column pushes a torque spring to move to a limiting breaker, the torque spring moves downwards to extrude the extrusion movable column to move towards two sides, so that an air pressure channel is connected, air backflow is prevented, the extrusion column is connected into a channel state, a prompt lamp is lightened, and single data collection is represented, the electric energy drives the electrified guide post to move towards the upper side.)

1. An intelligent air data collection device using a folding architecture, comprising an air data collection device (1), characterized in that: the top fixedly connected with of air data collection equipment (1) gathers head (6), the top of air data collection equipment (1) is through gathering head (6) fixedly connected with drive frame (5), the inboard of air data collection equipment (1) has collection jar (4) of ventilating through drive frame (5) swing joint, the bottom of air data collection equipment (1) has squeeze column (3) through collection jar (4) swing joint of ventilating, the bottom of air data collection equipment (1) has regulation and control framework (2) through squeeze column (3) swing joint, the left and right sides of air data collection equipment (1) all has semicircle runner frame (13) through collection jar (4) swing joint of ventilating.

2. An intelligent air data collection device using a folding architecture, according to claim 1, wherein: the equal swing joint in the left and right sides of drive frame (5) has fractional collection tank (12), and the bottom swing joint of drive frame (5) has screw thread post (15), and the equal swing joint in the left and right sides of screw thread post (15) has folding leg (14), and the bottom swing joint of folding leg (14) has regulation and control framework (2).

3. An intelligent air data collection device using a folding architecture, according to claim 1, wherein: the top end of the collecting head (6) is fixedly connected with an air inlet pipe (7), the center of the collecting head (6) is movably connected with a fan blade (8), and the bottom end of the fan blade (8) is movably connected with an intermittent rotating wheel (9).

4. An intelligent air data collection device using a folding architecture, according to claim 1, wherein: the left side and the right side of the ventilating and collecting tank (4) are both movably connected with a conductive tube (11), and the top end of the conductive tube (11) is movably connected with a connecting plug (10).

5. An intelligent air data collection device using a folding architecture, according to claim 1, wherein: the top end of the regulation framework (2) is movably connected with a torque spring (17), the left side and the right side of the torque spring (17) are respectively and movably connected with an extrusion movable column (16), the bottom end of the regulation framework (2) is movably connected with a limiting breaker (20), the left side and the right side of the regulation framework (2) are respectively and fixedly connected with a pneumatic column (19), and the bottom end of the pneumatic column (19) is movably connected with an electrifying guide column (18).

6. An intelligent air data collection device using a folding architecture, according to claim 1, wherein: the central authorities swing joint of collection tank (4) ventilate has screw thread post (15), and the equal swing joint in the left and right sides of collection tank (4) ventilates has pushing plate (22), and the equal swing joint in the left and right sides of collection tank (4) ventilates has rubber siphunculus (21), and the outside swing joint of rubber siphunculus (21) has fractional collection tank (12).

Technical Field

The invention relates to the technical field of air data collection, in particular to an intelligent air data collection device utilizing a folding framework.

Background

Atmospheric pollution is a major environmental problem which is commonly concerned by the society at present, not only directly threatens the ecological environment on which human beings live, but also restricts the sustainable development of national economy, so that investigators can collect the component content of each area in the atmosphere through air data collection equipment so as to obtain the air data of the research area.

When present air data collection equipment uses, carry out air collection to the air aspect of difference, need used repeatedly equipment to gather the sample, the operation is comparatively troublesome, and efficiency is lower, and at the in-process of collecting air content, the sample volume of gathering is inconsistent, causes the average value precision that the data of collection obtained to be lower, consequently, we have provided an intelligent air data collection equipment who utilizes folding framework.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides an intelligent air data collection device using a folding structure, which is achieved by the following specific technical means:

the utility model provides an utilize intelligent air data collection equipment of folding framework, includes air data collection equipment, the head is gathered to air data collection equipment's top fixedly connected with, air data collection equipment's top is through gathering head fixedly connected with drive frame, air data collection equipment's inboard has the collection tank of ventilating through drive frame swing joint, air data collection equipment's bottom has the extrusion post through ventilating collection tank swing joint, air data collection equipment's bottom has regulation and control framework through extrusion post swing joint, air data collection equipment's the left and right sides all has the semicircle runner frame through ventilating collection tank swing joint.

Preferably, the equal swing joint in the left and right sides of drive frame has the inferior collection tank, and the bottom swing joint of drive frame has the screw thread post, and the equal swing joint in the left and right sides of screw thread post has the folding leg, and the bottom swing joint of folding leg has the regulation and control framework.

Preferably, the top end of the collecting head is fixedly connected with an air inlet pipe, the center of the collecting head is movably connected with a fan blade, and the bottom end of the fan blade is movably connected with an intermittent rotating wheel.

Preferably, the left side and the right side of the ventilation collection tank are both movably connected with a conductive tube, and the top end of the conductive tube is movably connected with a connecting plug.

Preferably, the top end of the regulation framework is movably connected with a torque spring, the left side and the right side of the torque spring are both movably connected with extrusion movable columns, the bottom end of the regulation framework is movably connected with a limiting breaker, the left side and the right side of the regulation framework are both fixedly connected with pressure columns, and the bottom end of each pressure column is movably connected with an electrifying guide column.

Preferably, the central part of the ventilation collection tank is movably connected with a threaded column, the left side and the right side of the ventilation collection tank are both movably connected with a pushing plate, the left side and the right side of the ventilation collection tank are both movably connected with a rubber through pipe, and the outer side of the rubber through pipe is movably connected with a fractional collection tank.

The invention has the following beneficial effects:

1. the intelligent air data collection device utilizing the folding framework drives the electric energy to be used as a drive to drive the rotation of the fan blades by opening a switch of the device, external air is collected and collected at the inner side of the head part through the air inlet pipe by centrifugal force, the fan blades rotate to drive the intermittent rotating wheel to rotate, the intermittent rotating wheel rotates for a certain number of revolutions, the coil connection at the top part of the intermittent rotating wheel can be disconnected, so that the single air collection amount is consistent, the air flows to a storage room through the ventilation collection tank, the rotation of the fan blades at the bottom end of the collection head part drives the connecting plug to be extruded and connected to enable a circuit to be in an on-line state, the electric energy flows to the lower part through the conductive pipe and drives the threaded column to rotate, the threaded column drives the extrusion plate to push the air in the ventilation collection tank through the folding frame, the air is moved to the inner side of the fractional collection tank, the volume of three inside is unanimous, and gaseous from the innermost gasbag is collected to the saturated condition, drives the rotation of semicircle runner frame, and the gasbag that will collect and finish shifts out, and the staff can directly collect, then air data collection equipment need not stop when the in-process collection sample that different air aspect removed, sustainable multiple sample of gathering to realized sustainable collection different air sample data, the operation is comparatively simple, and efficiency is higher.

2. This utilize intelligent air data collection equipment of folding framework, in-process through screw post pivoted, friction between the connecting rod drives the extrusion post and moves to the downside, the extrusion post promotes torque spring and removes to spacing outage ware, torque spring moves extrusion movable post downwards and moves to both sides, make atmospheric pressure access connection, prevent the air reflux, make it connect for the access state, and the warning light lights, show that single collection data is accomplished, then the electric energy drives circular telegram guide pillar and moves to the upside, extrude the inside air of atmospheric pressure post, then ventilate the inside gas that passes through of collection tank and be the volume of extrusion atmospheric pressure, thereby the sample volume that has realized the collection is unanimous, it is higher to cause the average value precision that the collected data obtained.

Drawings

FIG. 1 is a schematic view of an air data collection apparatus according to the present invention;

FIG. 2 is a schematic view of the acquisition head of the present invention;

FIG. 3 is a schematic view of a driving frame according to the present invention;

FIG. 4 is a schematic diagram of a control architecture according to the present invention;

fig. 5 is a schematic view of the vent collection tank of the present invention.

In the figure: 1. an air data collection device; 2. a regulation framework; 3. extruding the column; 4. a vented collection tank; 5. a driving frame; 6. collecting a head; 7. an inlet gas inlet pipe; 8. a fan blade; 9. an intermittent rotary wheel; 10. a connecting plug; 11. a conductive tube; 12. a grading collection tank; 13. a semicircular runner frame; 14. a folding frame; 15. a threaded post; 16. extruding the movable column; 17. a torque spring; 18. energizing the guide post; 19. a gas pressure column; 20. a limiting circuit breaker; 21. a rubber through pipe; 22. and (5) pushing the plate.

Detailed Description

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.

Please refer to fig. 1-5, an utilize intelligent air data collection equipment of folding framework, including air data collection equipment 1, the top fixedly connected with of air data collection equipment 1 gathers head 6, the top fixedly connected with of gathering head 6 admits air and lets in pipe 7, the central swing joint of gathering head 6 has flabellum 8, the bottom swing joint of flabellum 8 has intermittent type runner 9, the top of air data collection equipment 1 is through gathering head 6 fixedly connected with drive frame 5, the equal swing joint in both sides has inferior collection jar 12 in the left and right sides of drive frame 5, the bottom swing joint of drive frame 5 has screw thread post 15, the equal swing joint in both sides in the left and right sides of screw thread post 15 has folding leg 14, the bottom swing joint of folding leg 14 has regulation and control framework 2, the inboard of air data collection equipment 1 has collection jar 4 of ventilating through drive frame 5 swing joint.

The central swing joint of collection tank 4 ventilates has threaded post 15, ventilate both sides of collection tank 4 and all swing joints have pushing plate 22, should utilize intelligent air data collection equipment of folding framework, through the switch of opening the equipment, the electric energy is as the drive, drive the rotation of flabellum 8, through centrifugal force, outside air is collected and gathered the inboard of head 6 through going into gas inlet pipe 7, flabellum 8 rotates and drives intermittent type runner 9 to rotate, intermittent type runner 9 rotates certain revolution, the coil connection at its top can break off, and then make the single air collection volume unanimous, and air flows to the storage room through collection tank 4 of ventilating, then the rotation of bottom flabellum 8 of collection head 6 drives connecting plug 10 to extrude and connect, make the circuit be the on-way state, the electric energy circulates to the below through conducting tube 11, the electric energy drives threaded post 15 to rotate, threaded post 15 drives pushing plate 22 through folding frame 14 and promotes the air inside collection tank 4 of ventilating, make it remove to the inferior collecting tank 12 inboard through rubber siphunculus 21, inferior collecting tank 12 is three collection gasbag, three inside volume is unanimous, gaseous from the innermost gasbag collection to saturation state, drive semicircle runner frame 13 and rotate, the gasbag that will collect finishing shifts out, the staff can directly collect, then air data collection equipment 1 need not stop when the in-process collection sample of different air aspect removal, sustainable multiple sample of gathering, thereby realized sustainable collection different air sample data, the operation is comparatively simple, high efficiency.

The left side and the right side of the ventilation collection tank 4 are both movably connected with a rubber through pipe 21, the outer side of the rubber through pipe 21 is movably connected with a fractional collection tank 12, the left side and the right side of the ventilation collection tank 4 are both movably connected with a conductive pipe 11, the top end of the conductive pipe 11 is movably connected with a connecting plug 10, the bottom end of the air data collection device 1 is movably connected with an extrusion column 3 through the ventilation collection tank 4, the bottom end of the air data collection device 1 is movably connected with a regulation framework 2 through the extrusion column 3, the top end of the regulation framework 2 is movably connected with a torque spring 17, the left side and the right side of the torque spring 17 are both movably connected with an extrusion movable column 16, the bottom end of the regulation framework 2 is movably connected with a limit breaker 20, the left side and the right side of the regulation framework 2 are both fixedly connected with an air pressure column 19, the bottom end of the air pressure column, this utilize intelligent air data collection equipment of folding framework, in-process through screw post 15 pivoted, drive extrusion post 3 to the downside through the frictional force between the connecting rod and move, extrusion post 3 promotes torque spring 17 and removes to spacing outage ware 20, torque spring 17 moves extrusion movable post 16 downwards and moves to both sides, make the atmospheric pressure access connection, prevent the air reflux, make it connect for the access state, and the warning light lights up, it finishes to show single collection data, then the electric energy drives circular telegram guide pillar 18 and moves to the upsides, extrude the inside air of atmospheric pressure post 19, then the inside gas that passes through of collection tank 4 of ventilating is the volume of extrusion atmospheric pressure, thereby the sample volume that has realized the collection is unanimous, it is higher to cause the average value precision that the collected data obtained.

The working principle is as follows: the staff opens the switch of the equipment, the electric energy is used as the drive to drive the rotation of the fan blades 8, the outside air is collected and collected at the inner side of the head 6 through the inlet air inlet pipe 7 by centrifugal force, the fan blades 8 rotate to drive the intermittent rotating wheel 9 to rotate, the intermittent rotating wheel 9 rotates for a certain number of revolutions, the coil connection at the top of the intermittent rotating wheel is disconnected, so that the single air collection amount is consistent, and the air flows to the storage room through the ventilating collection tank 4, the rotation of the fan blades 8 at the bottom of the collection head 6 drives the connecting plug 10 to be extruded and connected, so that the circuit is in a path state, the electric energy flows to the lower part through the conducting pipe 11, the electric energy drives the threaded column 15 to rotate, the threaded column 15 drives the extruding plate 22 through the folding frame 14 to push the air in the ventilating collection tank 4, so that the air moves to the inner side of the fractional collection tank 12 through the, the volume of three insides is unanimous, and gaseous from the innermost gasbag is collected to the saturated condition, drives semicircle runner frame 13 and rotates, and the gasbag that will collect finishes shifts out, and the staff can directly collect, and then air data collection equipment 1 need not stop when the in-process collection sample of different air aspect removal, sustainable multiple sample of gathering.

Meanwhile, in the rotating process of the threaded column 15, the extrusion column 3 is driven to move downwards through friction force between the connecting rods, the extrusion column 3 pushes the torque spring 17 to move to the limiting breaker 20, the torque spring 17 moves downwards to extrude the extrusion movable column 16 to move towards two sides, so that an air pressure channel is connected, air backflow is prevented, the connection is in a passage state, the prompting lamp is lightened, single data collection is completed, the electric energy drives the electrifying guide column 18 to move upwards to extrude air inside the air pressure column 19, and the air passing through the inside of the aeration collection tank 4 is in a volume of extruding air pressure.

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.