CN220623580U - Open-air sampling device with air anion concentration monitoring function - Google Patents

Abstract

The utility model discloses a field sampling device with an air anion concentration monitoring function, which comprises a mounting seat and an anion monitor, wherein the anion monitor is positioned above the mounting seat, and the field sampling device also comprises a supporting component which is arranged around the mounting seat and is used for supporting the sampling process. According to the field sampling device, in the process of sampling and detection, the wind power of the installation position of the field sampling device is monitored in real time through the wind power detector, when the external wind power is overlarge, the negative ion monitor descends to the inside of the protective cover through the lifting component and the guide component, the negative ion monitor is protected through the protective cover, the damage to the negative ion monitor exposed to the outside caused by the fact that the field sampling device is dumped due to the fact that the external wind power is large is avoided, in the process of descending and driving, the conical inserting rods on the supporting components are conveniently inserted to a deeper depth on the supporting ground through the knocking component, and the stability of the field sampling device in the use process is guaranteed.

Description

Open-air sampling device with air anion concentration monitoring function

Technical Field

The utility model relates to the technical field of outdoor sampling of negative ion concentration, in particular to a field sampling device with an air negative ion concentration monitoring function.

Background

The negative ion concentration refers to the number of negative ions in air per unit volume, when the negative ion content in the air reaches 1500 per cubic centimeter, the negative ion concentration is an air freshening standard, and when the negative ion content reaches more than 2 ten thousand per cubic centimeter, the negative ion concentration has the medical care effect, and the negative ion concentration can feel fresh air and smooth breath in forests, seashore and other places, because the air quality in the natural environment is higher, and in order to count the total production value of an ecological system, the important index of the negative ion concentration needs to be monitored.

The field sampling device with the negative ion concentration meter is often used for sampling and collecting the field negative ion concentration, and the negative ion concentration meter on the field sampling device is convenient for sampling in real time and is in a bare state, so that the field sampling device is easy to topple over when the external wind power is large, and the risk of damage of the negative ion concentration meter is increased.

There is a need for a field sampling device that addresses the above issues.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide the field sampling device with the air anion concentration monitoring function, so as to solve the problems that the field sampling device is easy to topple and the damage risk of the anion concentration meter is increased when the external wind power is large because the anion concentration meter on the field sampling device is convenient to sample in real time and is in an exposed state in the background art.

The technical scheme includes that the field sampling device with the air anion concentration monitoring function comprises a mounting seat and an anion monitor, wherein the anion monitor is located above the mounting seat, the field sampling device further comprises a supporting component which is arranged around the mounting seat and used for supporting the sampling process, a lifting component used for lifting the anion monitor is arranged on the mounting seat, a protective cover used for protecting the anion monitor after the anion monitor descends is arranged on the mounting seat, and a detection component used for detecting external wind power is arranged on the mounting seat.

The support assembly comprises a mounting rod, one end of the mounting rod is fixedly provided with a support rod, the other end of the mounting rod is rotationally connected with one side of the mounting seat, one end of the support rod is rotationally connected with a support disc, and the lower end of the support disc is fixedly provided with a conical inserted rod.

The lifting assembly comprises a threaded sleeve fixed on the mounting seat, a threaded rod is connected to the threaded sleeve in a threaded engagement manner, the lower end of the negative ion monitor is fixed to one end of the threaded rod, the lower end of the mounting seat is provided with a driving assembly for driving the threaded sleeve and a knocking assembly for knocking the mounting seat in the driving process, and a guiding assembly for guiding the negative ion monitor in the lifting process is arranged between the mounting seat and the negative ion monitor.

The guide assembly comprises a plurality of sleeves fixed on the mounting seat, each sleeve is connected with a sliding rod in a sliding mode, and one end of each sliding rod is fixed with the lower end of the negative ion monitor.

The driving assembly comprises a mounting frame fixed at the lower end of the mounting seat, a mounting shaft is rotatably connected to the mounting frame, a first conical tooth is fixed at one end of the mounting shaft, a second conical tooth is fixed at the outer side of the threaded sleeve, the first conical tooth and the second conical tooth are mutually meshed, and a driving motor for driving the mounting shaft is mounted on the mounting frame.

The knocking assembly comprises a U-shaped frame fixed at the lower end of the mounting seat, a driving disc is fixed on the mounting shaft, and a plurality of rubber bulges for vibrating and knocking against the driving disc are fixed on the driving disc in an annular array.

The detection assembly comprises a wind power detector arranged on the mounting seat, a controller is arranged on the outer side of the protective cover, and the driving motor and the wind power detector are electrically connected with the controller.

Compared with the prior art, the utility model has the beneficial effects that: according to the field sampling device with the air anion concentration monitoring function, in the process of sampling and detection, wind power at the installation position of the field sampling device is monitored in real time through the wind power detector, when the external wind power is overlarge, the anion monitoring device descends to the inside of the protective cover through the lifting component and the guide component, the anion monitoring device is protected through the protective cover, the damage to the anion monitoring device exposed to the outside caused by the fact that the external wind power is large to topple over the field sampling device is avoided, in the process of descending and driving, the conical inserting rods on the supporting components are conveniently inserted to a deeper depth on the supporting ground through the knocking component, and the stability in the use process of the field sampling device is ensured.

Drawings

FIG. 1 is a schematic diagram of the overall outline structure of the present utility model;

FIG. 2 is a schematic view of a lifting assembly and a guiding assembly according to the present utility model;

FIG. 3 is a schematic view of a driving assembly according to the present utility model;

FIG. 4 is a schematic view of a striking assembly according to the present utility model.

In the figure: 101. a mounting base; 102. an anion monitor; 201. a mounting rod; 202. a support rod; 203. a support plate; 204. a conical inserted link; 3. a protective cover; 401. a thread sleeve; 402. a threaded rod; 501. a sleeve; 502. a slide bar; 601. a mounting frame; 602. a mounting shaft; 603. a first bevel gear; 604. a second bevel gear; 605. a driving motor; 701. a U-shaped frame; 702. a drive plate; 703. a rubber protrusion; 801. a wind power detector; 802. and a controller.

Detailed Description

Specific examples of the present utility model are given below. The specific examples are provided only for further details of the present utility model and do not limit the scope of the claims.

The utility model provides a field sampling device with an air anion concentration monitoring function, which comprises a mounting seat 101 and an anion monitor 102, wherein the anion monitor 102 is positioned above the mounting seat 101, and further comprises a supporting component which is arranged around the mounting seat 101 and is used for supporting the sampling process, a lifting component used for lifting the anion monitor 102 is arranged on the mounting seat 101, a protective cover 3 used for protecting the anion monitor 102 after descending is arranged on the mounting seat 101, and a detection component used for detecting external wind force is arranged on the mounting seat 101;

what needs to be explained here is: in the in-process of sampling detection, carry out real-time supervision through wind-force detector 801 to the wind-force of open-air sampling device mounted position, when outside wind-force is too big, make anion monitor 102 decline motion to the inside of protection casing 3 through lifting unit and direction subassembly, protect anion monitor 102 through protection casing 3, avoid outside wind-force great messenger open-air sampling device to empty and cause exposing anion monitor 102 in the outside to take place to damage, and in the driven in-process of decline, through beating the subassembly, the taper inserted bar 204 on each supporting component of being convenient for inserts in supporting ground and establishes deeper degree of depth, guarantee the stability in the open-air sampling device use.

The supporting component comprises a mounting rod 201, one end of the mounting rod 201 is fixed with a supporting rod 202, the other end of the mounting rod 201 is rotationally connected with one side of the mounting seat 101, one end of the supporting rod 202 is rotationally connected with a supporting disc 203, and the lower end of the supporting disc 203 is fixed with a conical inserting rod 204;

what needs to be explained here is: after the field sampling device moves to a designated field position, the conical inserting rods 204 of the supporting discs 203 on each supporting component are inserted on the ground of the support, and after the insertion is completed, the mounting base 101 is supported through the mounting rods 201 and the supporting rods 202 on each supporting component.

The lifting assembly comprises a threaded sleeve 401 fixed on the mounting seat 101, a threaded rod 402 is connected to the threaded sleeve 401 in a threaded engagement manner, the lower end of the negative ion monitor 102 is fixed at one end of the threaded rod 402, a driving assembly for driving the threaded sleeve 401 and a knocking assembly for knocking the mounting seat 101 in the driving process are arranged at the lower end of the mounting seat 101, and a guide assembly for guiding the negative ion monitor 102 in the lifting process is arranged between the mounting seat 101 and the negative ion monitor 102; the guide assembly comprises a plurality of sleeves 501 fixed on the mounting seat 101, each sleeve 501 is connected with a sliding rod 502 in a sliding manner, and one end of each sliding rod 502 is fixed with the lower end of the negative ion monitor 102;

what needs to be explained here is: through drive assembly, drive thread bush 401 rotates, at thread bush 401 pivoted in-process, through the intermeshing transmission of thread bush 401 and threaded rod 402, drive anion monitor 102 moves, and in the in-process of moving, through the guide effect of each sleeve pipe 501 and slide bar 502, the anion monitor 102 after messenger's atress goes up and down, is convenient for carry out real-time sampling detection to the anion concentration of open-air different height positions through the lift of anion monitor 102.

The driving assembly comprises a mounting frame 601 fixed at the lower end of the mounting seat 101, a mounting shaft 602 is rotatably connected to the mounting frame 601, a first conical tooth 603 is fixed at one end of the mounting shaft 602, a second conical tooth 604 is fixed at the outer side of the threaded sleeve 401, the first conical tooth 603 and the second conical tooth 604 are meshed with each other, and a driving motor 605 for driving the mounting shaft 602 is mounted on the mounting frame 601;

what needs to be explained here is: the installation shaft 602 is driven to rotate through the driving motor 605, the first bevel gear 603 is driven to rotate in the process of rotating the installation shaft 602, and the threaded sleeve 401 is driven to rotate through the mutual meshing transmission of the first bevel gear 603 and the second bevel gear 604 in the process of rotating the first bevel gear 603.

The knocking assembly comprises a U-shaped frame 701 fixed at the lower end of the mounting seat 101, a driving disc 702 is fixed on the mounting shaft 602, and a plurality of rubber bulges 703 for vibrating and knocking against the driving disc 702 are fixed on the driving disc 702 in an annular array;

what needs to be explained here is: in the process of driving the threaded sleeve 401 to rotate, the driving discs 702 are driven to synchronously rotate through the rotation of the mounting shaft 602, each driving disc 702 is made to sequentially prop against the U-shaped frame 701 in the process of driving the driving discs 702 to vibrate and strike the mounting seat 101 through the transmission function of the U-shaped frame 701, the conical inserting rod 204 on each supporting component is convenient to insert deeper depth on the supporting ground in the process of vibrating and striking the mounting seat 101, and the stability of the field sampling device in the use process is guaranteed.

The detection assembly comprises a wind power detector 801 arranged on the mounting seat 101, a controller 802 is arranged on the outer side of the protective cover 3, and the driving motor 605 and the wind power detector 801 are electrically connected with the controller 802;

what needs to be explained here is: in the process of sampling and detection, wind power at the installation position of the field sampling device is monitored in real time through the wind power detector 801, and driving of the driving motor 605 is conveniently controlled through the controller 802.

The working principle and the working flow of the utility model are as follows: in the process of sampling and detecting the concentration of negative ions in the field by the field sampling device, after the field sampling device moves to a designated position in the field, inserting the conical inserting rods 204 of the supporting discs 203 on each supporting component on the ground of the support, supporting the mounting seat 101 through the mounting rods 201 and the supporting rods 202 on each supporting component after the insertion, and carrying out real-time sampling and detecting on the concentration of the negative ions in the field through the negative ion monitor 102 above the mounting seat 101 after the completion of the supporting;

in the process of sampling and detecting, the screw sleeve 401 is driven to rotate through the driving component, in the process of rotating the screw sleeve 401, the negative ion monitor 102 is driven to move through the mutual meshing transmission of the screw sleeve 401 and the threaded rod 402, in the process of moving, the negative ion monitor 102 after being stressed is lifted through the guiding action of each sleeve 501 and the sliding rod 502, and the real-time sampling and detecting of the negative ion concentration of different outdoor height positions are facilitated through the lifting of the negative ion monitor 102;

in the process of sampling and detecting, wind power of the installation position of the field sampling device is monitored in real time through the wind power detector 801, when the external wind power is overlarge, the negative ion monitor 102 is enabled to move downwards to the inside of the protective cover 3 through the lifting component and the guiding component, the negative ion monitor 102 is protected through the protective cover 3, the situation that the external wind power is large to enable the field sampling device to topple over to cause the negative ion monitor 102 exposed to the outside to be damaged is avoided, in the process of driving the threaded sleeve 401 to rotate, the driving discs 702 are driven to synchronously rotate through the rotation of the installation shaft 602, in the process of driving discs 702 to enable each driving disc 702 to sequentially abut against the U-shaped frame 701, vibration knocking is carried out on the installation seat 101 through the transmission effect of the U-shaped frame 701, the cone-shaped inserted rod 204 on each supporting component is convenient to insert deeper depth on the supporting ground in the process of vibration knocking on the installation seat 101, and stability in the use process of the field sampling device is guaranteed.

The utility model is applicable to the prior art where it is not described.

Claims (7)

1. A field sampling device with air anion concentration monitoring function, comprising:

the negative ion monitoring device comprises a mounting seat (101) and a negative ion monitor (102), wherein the negative ion monitor (102) is positioned above the mounting seat (101);

characterized by further comprising:

the device comprises a mounting seat (101), wherein a supporting component is arranged around the mounting seat (101) and used for supporting the sampling process, a lifting component used for lifting the negative ion monitor (102) is arranged on the mounting seat (101), a protective cover (3) used for protecting the negative ion monitor (102) after descending is arranged on the mounting seat (101), and a detecting component used for detecting external wind force is arranged on the mounting seat (101).

2. The field sampling device with an air anion concentration monitoring function according to claim 1, wherein: the support assembly comprises a mounting rod (201), one end of the mounting rod (201) is fixedly provided with a support rod (202), the other end of the mounting rod (201) is rotationally connected with one side of the mounting seat (101), one end of the support rod (202) is rotationally connected with a support disc (203), and the lower end of the support disc (203) is fixedly provided with a conical inserting rod (204).

3. The field sampling device with an air anion concentration monitoring function according to claim 1, wherein: the lifting assembly comprises a threaded sleeve (401) fixed on a mounting seat (101), a threaded rod (402) is connected to the threaded sleeve (401) in a threaded engagement mode, the lower end of the threaded rod (402) is fixed to the lower end of an anion monitor (102), a driving assembly for driving the threaded sleeve (401) and a knocking assembly for knocking the mounting seat (101) in the driving process are arranged at the lower end of the mounting seat (101), and a guiding assembly for guiding the anion monitor (102) in the lifting process is arranged between the mounting seat (101) and the anion monitor (102).

4. The field sampling device with an air anion concentration monitoring function according to claim 3, wherein: the guide assembly comprises a plurality of sleeves (501) fixed on the mounting base (101), each sleeve (501) is connected with a sliding rod (502) in a sliding mode, and one end of each sliding rod (502) is fixed with the lower end of the negative ion monitor (102).

5. The field sampling device with an air anion concentration monitoring function according to claim 3, wherein: the driving assembly comprises a mounting frame (601) fixed at the lower end of the mounting seat (101), a mounting shaft (602) is rotatably connected to the mounting frame (601), a first bevel gear (603) is fixed to one end of the mounting shaft (602), a second bevel gear (604) is fixed to the outer side of the threaded sleeve (401), the first bevel gear (603) and the second bevel gear (604) are arranged in a meshed mode, and a driving motor (605) for driving the mounting shaft (602) is mounted on the mounting frame (601).

6. The field sampling device with air anion concentration monitoring function of claim 5, wherein: the knocking assembly comprises a U-shaped frame (701) fixed at the lower end of the mounting seat (101), a driving disc (702) is fixed on the mounting shaft (602), and a plurality of rubber bulges (703) for vibrating and knocking against the driving disc (702) are fixed on the driving disc (702) in an annular array.

7. The field sampling device with air anion concentration monitoring function of claim 6, wherein: the detection assembly comprises a wind power detector (801) arranged on the mounting seat (101), a controller (802) is arranged on the outer side of the protective cover (3), and the driving motor (605) and the wind power detector (801) are electrically connected with the controller (802).