CN113483825B - Environment monitoring device capable of being assembled rapidly for environment monitoring - Google Patents

Abstract

The invention belongs to the technical field of environment monitoring devices, and discloses an environment monitoring device capable of being quickly assembled for environment monitoring, which comprises: the two ends of the supporting upright post are fixedly provided with clamping columns; a first connector; each two adjacent supporting columns are assembled and fixed through two first connecting pieces matched with each other; the monitoring device comprises a monitoring tube, wherein a monitoring cavity capable of passing through air is defined in the monitoring tube, and a monitoring sensor is fixed in the monitoring cavity; the support upright post is assembled and connected with the monitoring pipe through the second connecting piece; clamping holes capable of being clamped into the clamping columns are formed in the first connecting piece and the second connecting piece along the axial direction, threaded pins penetrate through the first connecting piece and the second connecting piece along the radial direction, the threaded pins penetrate through the clamping holes, and when the clamping columns are clamped into the clamping holes, the threaded pins penetrate through the clamping columns; in conclusion, the rapid assembly of the whole device can be effectively realized, and the device is flexibly applicable to environments with different heights.

Description

Environment monitoring device capable of being assembled rapidly for environment monitoring

Technical Field

The invention belongs to the technical field of environment monitoring devices, and particularly relates to an environment monitoring device capable of being quickly assembled for environment monitoring.

Background

The environmental monitoring comprises air monitoring, water quality monitoring, geological monitoring and the like; taking air monitoring as an example, this refers to the fixed-point, continuous or timed sampling and measurement of the contaminants present in the air. At present, in order to realize accurate monitoring of an air environment, a plurality of monitoring points are generally set up in a monitoring area, automatic monitoring equipment is installed at each monitoring point, and a monitoring result is transmitted in a centralized manner through a wired or wireless network.

In the prior art, most of the automatic detection equipment used is of a vertical structure, and the assembly between all components is generally carried out in a welding mode to ensure the stability of the structure, so that the assembly efficiency of the whole equipment is affected on one hand, and the disassembly and replacement of part of components cannot be realized on the other hand.

Disclosure of Invention

In view of the above, the present invention is directed to an environmental monitoring device for environmental monitoring that can be assembled quickly.

In order to achieve the above purpose, the present invention provides the following technical solutions: an environment monitoring device for environment monitoring capable of being assembled quickly, comprising:

the two ends of the supporting upright post are fixedly provided with clamping columns;

a first connector; each two adjacent supporting columns are assembled and fixed through two first connecting pieces matched with each other;

the monitoring device comprises a monitoring tube, wherein a monitoring cavity capable of passing through air is defined in the monitoring tube, and a monitoring sensor is fixed in the monitoring cavity;

the support upright post is assembled and connected with the monitoring pipe through the second connecting piece;

clamping holes capable of being clamped into the clamping columns are formed in the first connecting piece and the second connecting piece along the axial direction, threaded pins penetrate through the first connecting piece and the second connecting piece along the radial direction, the threaded pins penetrate through the clamping holes, and when the clamping columns are clamped into the clamping holes, the threaded pins penetrate through the clamping columns.

Preferably, an inner hole is formed in the center of the clamping column, two movable limiting pins are installed in the inner hole and symmetrically distributed on two sides of the threaded pin, and the two limiting pins are limited to be far away from each other and extend out of the clamping column when the threaded pin is inserted.

Preferably, two movable plates are installed in the inner hole, rotatable limiting wheels are installed on one sides, close to each other, of the two movable plates, return springs are installed on one sides, far away from each other, of the two movable plates, and the return springs are connected between the inner hole and the movable plates.

Preferably, one end of the first connecting piece is axially provided with a plugboard and a slot with semi-annular structures, the plugboard is located at one side of the slot, and when the two first connecting pieces are matched with each other, the plugboard of one first connecting piece is inserted into the slot of the other first connecting piece, and the threaded pin penetrates through the slot and the plugboard.

Preferably, the monitoring pipe comprises an inlet pipe, a conduit and an outlet pipe which are sequentially connected along the air conduction direction; the inlet pipe and the outlet pipe are of a straight structure, and the monitoring sensor is fixed in the outlet pipe; the guide pipe is of an annular structure, a central column penetrates through the guide pipe, the central column is in running fit with the guide pipe, and second connecting pieces are fixed at two ends of the central column.

Preferably, the diameter of the second connecting piece is equal to the diameter of the guide pipe, a plurality of balls are embedded in one side, close to the guide pipe, of the second connecting piece, and the plurality of ball annular arrays are distributed outside the center column.

Preferably, annular sliding grooves are formed in two ends of the guide pipe, and the annular sliding grooves are in sliding fit with the balls.

Preferably, the tail fin is fixed outside the outlet pipe, the unidirectional conduction assembly is fixed inside the outlet pipe, and the monitoring sensor is positioned between the guide pipe and the unidirectional conduction assembly.

Preferably, the unidirectional conduction assembly includes:

the baffle is fixedly arranged in the outlet pipe;

the baffle is arranged between the monitoring sensor and the movable plate;

and the connecting rod is fixed on the movable plate, penetrates through the baffle and is in sliding fit with the baffle.

Preferably, the connecting rod is of a U-shaped structure, the cross sections of the baffle and the movable plate are semicircular, and the baffle and the movable plate are wrapped with sealing rings.

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

(1) In the present invention: the first connecting piece is used for realizing the assembly between the two supporting columns, so that the overall height of the whole device can be changed by adjusting the assembly quantity of the supporting columns, and the device is effectively applicable to air monitoring in environments with different heights; the second connecting piece is used for realizing the assembly between the supporting upright post and the monitoring pipe, and the assembly structure of the first connecting piece and the second connecting piece is the same, so that the assembly difficulty of the whole device is effectively reduced, the assembly efficiency is improved, and the overhaul and the replacement of part of the structure are conveniently executed.

(2) For the first connecting piece and the second connecting piece, multidirectional limitation is formed based on the cooperation of the threaded pin and the limiting pin, so that the stability of connection is effectively ensured.

(3) For above-mentioned monitor pipe, including advancing pipe, pipe and exit tube, wherein: a central column is in running fit in the guide pipe and is fixed with the second connecting piece; the fin is fixed with to the exit tube outside, inside is fixed with one-way conduction subassembly, makes whole monitor tube can rotate in a flexible way from this to effectively realize the air monitoring of different directions.

(4) To above-mentioned center post, all be fixed with the second connecting piece at its both ends, and all cooperate ball and annular spout between the second connecting piece and the pipe at both ends, further improve whole monitoring pipe pivoted flexibility from this.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is a cross-sectional view taken along a direction a in fig. 1;

FIG. 3 is an enlarged view at B in FIG. 1;

FIG. 4 is a schematic view of a card column according to the present invention;

FIG. 5 is a schematic view of a first connector according to the present invention;

FIG. 6 is a schematic view of the second connector fitting and center post structure of the present invention;

FIG. 7 is an external view of a catheter according to the present invention;

in the figure: a support column-1; a clamping column-11; an inner hole-12; a limit pin-13; a moving plate-14; limit wheels-15; a return spring-16; a first connector-2; a plugboard-21; slot-22; monitoring tube-3; monitoring the sensor-31; pipe inlet-32; a catheter-33; a tube-34; a baffle-341; a movable plate-342; a connecting rod-343; a center post-35; an annular chute-36; tail fin-37; a second connector-4; a clamping hole-5; threaded pin-6.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, in the present invention, there is provided a rapid-assembly environment monitoring device for environment monitoring, which mainly comprises:

the support column 1, two ends of the support column 1 are fixed with clamping columns 11;

a first connector 2; every two adjacent support columns 1 are assembled and fixed through two first connecting pieces 2 which are matched with each other; thereby, the assembly of different numbers of support columns 1 can be achieved with the first connection piece 2, so that the overall height of the overall device is changed;

the monitoring tube 3, the monitoring tube 3 is limited with a monitoring cavity which can pass through air, and a monitoring sensor 31 is fixed in the monitoring cavity; preferably, the monitoring sensor 31 includes, but is not limited to, an SHT71 temperature and humidity sensor, a PPD20V dust concentration sensor, a PM2.5 sensor, a TGS2600 air quality sensor;

and the second connecting piece 4 is used for assembling and connecting the support upright 1 and the monitoring pipe 3 through the second connecting piece 4.

Specifically, the first connecting piece 2 and the second connecting piece 4 are provided with clamping holes 5 capable of being clamped into the clamping columns 11 along the axial direction, the first connecting piece 2 and the second connecting piece 4 are provided with threaded pins 6 in a penetrating manner along the radial direction, the threaded pins 6 penetrate through the clamping holes 5, and when the clamping columns 11 are clamped into the clamping holes 5, the threaded pins 6 penetrate through the clamping columns 11.

Further, a half-ring shaped insert plate 21 and an insert slot 22 are axially provided at one end of the first connector 2, the insert plate 21 is located at one side of the insert slot 22, and when the two first connectors 2 are mutually matched, the insert plate 21 of one first connector 2 is inserted into the insert slot 22 of the other first connector 2, and the threaded pin 6 passes through the insert slot 22 and penetrates through the insert plate 21.

As can be seen from the above, when the assembly between two adjacent support uprights 1 is achieved with two first connectors 2: firstly, inserting the plugboard 21 of one first connecting piece 2 into the slot 22 of the other first connecting piece 2, so as to form mutual matching between the two first connecting pieces 2; then, clamping the clamping columns 11 on the two adjacent support columns 1 into the two clamping holes 5 respectively, so that the first connecting piece 2 and the support columns 1 are matched with each other; finally, the threaded pins 6 are screwed into the two first connecting pieces 2 along the radial direction, and the two threaded pins 6 penetrate through the two plugboards 21 and the two clamping columns 11 correspondingly, so that the two first connecting pieces 2 and the two supporting columns 1 are fixed (shown in fig. 1).

Further, an inner hole 12 is formed in the center of the clamping post 11, two movable limiting pins 13 are installed in the inner hole 12, the two limiting pins 13 are symmetrically distributed on two sides of the threaded pin 6, and the two limiting pins 13 are limited to be far away from each other when the threaded pin 6 is inserted and extend out of the clamping post 11.

Specifically, two moving plates 14 are installed in the inner hole 12, rotatable limiting wheels 15 are installed on the sides, close to each other, of the two moving plates 14, return springs 16 are installed on the sides, far away from each other, of the two moving plates 14, and the return springs 16 are connected between the inner hole 12 and the moving plates 14; therefore, in the process that the threaded pin 6 extends into the clamping post 11, one end of the threaded pin 6 is gradually inserted between the two limiting wheels 15, so as to drive the two limiting wheels 15 and the moving plate 14 to be away from each other, and at the same time, the moving plate 14 drives the two limiting pins 13 to synchronously move, and compresses the return spring 16, so that the two limiting pins 13 extend out of the clamping post 11 and are clamped into the corresponding first connecting piece 2 or second connecting piece 4. Based on the matching of the threaded pin 6 and the two limiting pins 13, the clamping column 11 can be fixed in multiple directions, so that the assembly stability of the whole structure is effectively improved; in addition, after the threaded pin 6 is taken out, the reset of the limiting pin 13 can be automatically realized based on the rebound of the reset spring 16, and the disassembly is convenient.

In addition, regarding the above-mentioned monitor tube 3:

comprises an inlet pipe 32, a conduit 33 and an outlet pipe 34 which are sequentially connected along the air conduction direction; the inlet pipe 32 and the outlet pipe 34 are of a straight structure, and the monitoring sensor 31 is fixed in the outlet pipe 34; the guide tube 33 is of an annular structure, a central column 35 penetrates through the guide tube 33, the central column 35 is in running fit with the guide tube 33, and the two ends of the central column 35 are both fixed with the second connecting piece 4. Therefore, the whole monitoring tube 3 can rotate around the axis of the supporting upright 1 at any angle, so that monitoring in different directions can be effectively realized, and the rotating structure and principle of the monitoring tube 3 are as follows:

the tail fin 37 is fixed outside the outlet pipe 34, a one-way conduction assembly is fixed inside the outlet pipe 34, and the monitoring sensor 31 is positioned between the guide pipe 33 and the one-way conduction assembly; wherein, one-way conduction subassembly includes:

a baffle 341 fixedly provided inside the outlet pipe 34;

the movable plate 342 is slidably arranged in the outlet pipe 34, the baffle 341 is positioned between the monitoring sensor 31 and the movable plate 342, the cross sections of the baffle 341 and the movable plate 342 are semicircular, and in addition, sealing rings are wrapped on the baffle 341 and the movable plate 342;

the connecting rod 343 fixed on the movable plate 342 is of a U-shaped structure, and the connecting rod 343 penetrates through the baffle 341 and is in sliding fit with the baffle 341.

From the above, the integral monitoring tube 3 and the tail fin 37 cooperate to form a wind vane, so that the rotation of the monitoring tube 3 can be automatically realized under wind power in different directions, and the air can be effectively ensured to enter from the inlet tube 32 and be led out from the outlet tube 34 after the rotation.

It should be noted that the diameter of the second connecting piece 4 is equal to the diameter of the conduit 33, and a plurality of balls 41 are embedded in one side of the second connecting piece 4 close to the conduit 33, and the plurality of balls 41 are distributed outside the central column 35 in an annular array; annular sliding grooves 36 are formed in both ends of the guide tube 33, and the annular sliding grooves 36 are in sliding fit with the balls 41. The sliding support between the second connecting piece 4 and the guide tube 33 is realized by utilizing the cooperation of the balls 41 and the annular sliding groove 36, and the sliding friction is converted into rolling friction by the balls 41, so that the rotation flexibility of the monitoring tube 3 is further improved, and meanwhile, the structural wear can be effectively reduced.

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

Claims (1)

1. An environment monitoring device for environment monitoring capable of being assembled quickly, comprising:

the support column (1), both ends of the support column (1) are fixed with clamping columns (11);

a first connector (2); every two adjacent supporting columns (1) are assembled and fixed through two first connecting pieces (2) which are matched with each other;

the monitoring device comprises a monitoring tube (3), wherein a monitoring cavity capable of passing through air is defined in the monitoring tube (3), and a monitoring sensor (31) is fixed in the monitoring cavity;

the support upright post (1) is assembled and connected with the monitoring pipe (3) through the second connecting piece (4);

clamping holes (5) which can be clamped into the clamping columns (11) are formed in the first connecting piece (2) and the second connecting piece (4) along the axial direction, threaded pins (6) are penetrated through the first connecting piece (2) and the second connecting piece (4) along the radial direction, the threaded pins (6) penetrate through the clamping holes (5), and when the clamping columns (11) are clamped into the clamping holes (5), the threaded pins (6) penetrate through the clamping columns (11);

an inner hole (12) is formed in the center of the clamping column (11), two movable limiting pins (13) are arranged in the inner hole (12), the two limiting pins (13) are symmetrically distributed on two sides of the threaded pin (6), and the two limiting pins (13) are limited to be far away from each other and extend out of the clamping column (11) when the threaded pin (6) is inserted;

two movable plates (14) are arranged in the inner hole (12), rotatable limiting wheels (15) are arranged on one sides, close to each other, of the two movable plates (14), return springs (16) are arranged on one sides, far away from each other, of the two movable plates (14), and the return springs (16) are connected between the inner hole (12) and the movable plates (14);

a plugboard (21) and a slot (22) with semi-annular structures are axially arranged at one end of each first connecting piece (2), the plugboard (21) is positioned at one side of the slot (22), when the two first connecting pieces (2) are matched with each other, the plugboard (21) of one first connecting piece (2) is inserted into the slot (22) of the other first connecting piece (2), and a threaded pin (6) penetrates through the slot (22) and penetrates through the plugboard (21);

the monitoring pipe (3) comprises an inlet pipe (32), a guide pipe (33) and an outlet pipe (34) which are sequentially connected along the air conduction direction; the inlet pipe (32) and the outlet pipe (34) are of a straight-line structure, and the monitoring sensor (31) is fixed in the outlet pipe (34); the guide pipe (33) is of an annular structure, a central column (35) penetrates through the guide pipe (33), the central column (35) is in running fit with the guide pipe (33), and second connecting pieces (4) are fixed at two ends of the central column (35);

the diameter of the second connecting piece (4) is equal to that of the guide pipe (33), a plurality of balls (41) are embedded in one side, close to the guide pipe (33), of the second connecting piece (4), and the balls (41) are distributed outside the central column (35) in an annular array;

annular sliding grooves (36) are formed in two ends of the guide pipe (33), and the annular sliding grooves (36) are in sliding fit with the balls (41);

a tail fin (37) is fixed outside the outlet pipe (34), a one-way conduction assembly is fixed inside the outlet pipe (34), and the monitoring sensor (31) is positioned between the guide pipe (33) and the one-way conduction assembly;

the unidirectional conductive assembly includes:

a baffle (341) fixedly provided inside the outlet pipe (34);

a movable plate (342) slidably disposed inside the outlet pipe (34), the baffle (341) being located between the monitoring sensor (31) and the movable plate (342);

a connecting rod (343) fixed on the movable plate (342), wherein the connecting rod (343) penetrates through the baffle plate (341) and is in sliding fit with the baffle plate (341);

the connecting rod (343) is of a U-shaped structure, the cross sections of the baffle (341) and the movable plate (342) are semicircular, and sealing rings are wrapped on the baffle (341) and the movable plate (342).