CN214585534U - Be used for real-time continuous monitoring devices of gobi sand blown by wind velocity of flow sand volume - Google Patents

Abstract

The utility model relates to a monitoring technology field of husky volume of husky flow velocity of wind-blown sand specifically is a be used for husky volume of sand flow velocity of Gobi real time continuous monitoring device for there is not special real-time supervision Gobi husky volume of flow velocity of wind-blown sand among the solution prior art device, thereby results in the very big problem of judgment error. The utility model discloses a converge husky chute and stand pipe, the lower extreme of stand pipe is connected with husky volume and holds the pipe, the lower extreme that husky volume held the pipe is connected with husky volume and holds the case, be equipped with switch module on the stand pipe, husky volume is carved with down the scale mark along its direction of height on holding the case, husky volume is carved with the scale mark along its direction of height on holding the pipe, the material that husky volume holds case and husky volume and holds the pipe is glass. The utility model discloses in the gobi sand blown by the wind gets into husky volume through converging husky chute and holds intraductally, what of knowing the husky volume of sand flow velocity of wind that can know through last scale mark on the husky volume holding pipe to can be real-time to the monitoring of gobi sand flow velocity of wind volume in real time continuous.

Description

Be used for real-time continuous monitoring devices of gobi sand blown by wind velocity of flow sand volume

Technical Field

The utility model relates to a monitoring technology field of husky volume of husky flow velocity of wind, more specifically relate to a be used for husky volume of current real-time continuous monitoring device of gobi wind-blown velocity.

Background

The Gobi is also called Gobi desert, is one of huge desert and semi-desert areas in the world, spans vast land in China and spans vast space in Mongolia and China, most areas of the Gobi are not deserts but are bare rocks, can reach Altai mountains and Hangzhou mountains northward, can reach Daxing' an mountains eastward, can reach northern mountain mountains southward, and has quick change of the wind-sand flow rate, so that the real-time monitoring of the wind-sand in the Gobi is very important, and can provide guidance for corresponding personnel.

In the prior art, a device for monitoring the flow speed and the sand amount of the sand blown by the Gobi in real time is not specially arranged, people can only make simple judgment according to life experience and wind speed, the judgment error is very large, the guiding significance to people is not large, and even misleading can occur. Therefore, a monitoring device capable of more accurately monitoring the flow velocity and the sand amount of the gobi wind sand in real time is urgently needed so as to better guide people.

SUMMERY OF THE UTILITY MODEL

Based on the above problem, the utility model provides a be used for husky volume of velocity of flow real-time continuous monitoring device of gobi sand blown by the wind for solve and not have the device of special real-time supervision gobi sand flow velocity of flow volume of sand among the prior art, people can only rely on experience of life and wind speed to do simple judgement, thereby lead to the very big problem of judgement error. The utility model discloses in the gobi sand blown by the wind gets into husky volume through converging husky chute and holds intraductally, what of knowing the husky volume of sand flow velocity of wind that can know through last scale mark on the husky volume holding pipe to can be real-time to the monitoring of gobi sand flow velocity of wind volume in real time continuous.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

the utility model provides a real-time continuous monitoring devices of husky volume of sand flow of sand wind for gobi, is including converging husky chute, the bottom surface slope setting of converging husky chute, the one end of converging husky chute is connected with the stand pipe that is located vertical direction, the lower extreme of stand pipe is connected with husky volume and holds the pipe, the lower extreme that husky volume held the pipe is connected with husky volume and holds the case, be equipped with switch assembly on the stand pipe, husky volume holds and is carved with down the scale mark along its direction of height on the case, husky volume holds and is carved with the scale mark along its direction of height on the pipe, husky volume holds the case and husky volume and holds the material of managing and be glass.

The preferable structure of the sand-gathering chute is as follows: the sand gathering chute comprises a sand gathering hopper and a sand leaking nozzle which are formed into a whole, the bottom surface of the sand gathering hopper is arranged in an inclined mode, and the sand leaking nozzle is connected with the guide pipe.

Preferably, the width of the sand gathering hopper is gradually reduced from the direction far away from the sand leaking nozzle to the direction close to the sand leaking nozzle.

The preferred structure of the guide tube is: the guide pipe comprises an upper connecting section, a guide section and a lower connecting section which are sequentially formed into a whole from top to bottom, the upper connecting section is in threaded connection with the sand leaking nozzle, and the lower connecting section is in threaded connection with the sand containing pipe.

Preferably, the inner diameter of the guide section gradually decreases from top to bottom.

Preferably, the switch assembly includes an upper switch installed at an upper portion of the sand containing pipe and a lower switch installed at a lower portion of the sand containing pipe, both of which can close the sand containing pipe.

Preferably, the sand amount containing box comprises a connecting nozzle and a box body which are formed into a whole, the connecting nozzle is connected with the lower end of the sand amount containing pipe through threads, and the box body is square.

The utility model has the advantages as follows:

(1) the utility model discloses in the gobi sand blown by the wind gets into husky volume through converging husky chute and holds intraductally, what of knowing the husky volume of sand flow velocity of wind that can know through last scale mark on the husky volume holding pipe to can be real-time to the monitoring of gobi sand flow velocity of wind volume in real time continuous.

(2) The utility model discloses the width of well husky fill of converging diminishes in proper order from keeping away from hourglass husky mouth to the direction of being close to hourglass husky mouth, and the husky wide one end of fill of converging meets husky, and other end width narrows down, is favorable to husky to assemble hourglass husky mouth department like this.

(3) The utility model discloses the internal diameter from the top down of well direction section is steadilyd decrease gradually, and the internal diameter that can make husky volume hold the pipe like this is littleer to can more audio-visual see out the husky volume change that husky volume held the pipe, and then can more audio-visual change of seeing out the husky velocity of flow of wind.

(4) The utility model discloses well lower switch installs in the lower part of husky volume holding pipe, and the husky volume holding pipe can be sealed to upper switch and lower switch, and after the husky volume in the holding pipe of husky volume reached certain volume, can open the lower switch, close the upper switch, then make the hourglass in the husky volume holding pipe advance husky volume holding incasement, the husky that flows in from the chute that catchments continues to be blockked in the husky volume holding pipe by the upper switch; after the sand in the sand quantity containing pipe below the upper switch is completely leaked into the sand quantity containing box, the lower switch is closed and the upper switch is opened, so that the continuous monitoring of the flow rate of the sand quantity can be realized.

(5) The utility model discloses well husky chute of converging, stand pipe, husky volume hold the pipe and husky volume hold all through threaded connection between the case, the device's of being convenient for quick dismantlement and installation like this.

Drawings

Fig. 1 is a schematic view of the front sectional structure of the utility model when the upper switch is opened and the lower switch is closed;

FIG. 2 is a schematic view of the front sectional structure of the present invention when the upper switch is closed and the lower switch is opened;

FIG. 3 is a schematic view of the front structure of the present invention;

FIG. 4 is a schematic view of the sectional structure of the sand-gathering chute;

FIG. 5 is a schematic view of the top view of the sand chute of the present invention;

FIG. 6 is a schematic view of the front cross-sectional structure of the guide tube of the present invention;

FIG. 7 is a schematic view of the sectional structure of the sand containing box of the present invention;

reference numerals: 1 husky volume holds case, 11 boxes, 12 connection mouth, 2 switch subassemblies, 21 lower switch, 22 upper switch, 3 husky volumes hold the pipe, 4 stand pipes, 41 lower linkage segment, 42 guide segment, 43 upper linkage segment, 5 converge husky chute, 51 converge husky fill, 52 hourglass husky mouth, scale mark under 6, 7 upper scale mark.

Detailed Description

For a better understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and the following embodiments.

Example 1:

as shown in figures 1-7, a be used for gobi sand wind velocity of flow husky volume real-time continuous monitoring device, including converging husky chute 5, the bottom surface slope setting of converging husky chute 5, the one end of converging husky chute 5 is connected with the stand pipe 4 that is located vertical direction, the lower extreme of stand pipe 4 is connected with husky volume and holds pipe 3, the lower extreme that husky volume held pipe 3 is connected with husky volume and holds case 1, be equipped with switch module 2 on the stand pipe 4, husky volume holds and is carved with lower scale mark 6 along its direction of height on the case 1, husky volume holds and is carved with upper scale mark 7 along its direction of height on the pipe 3, the material that husky volume held case 1 and husky volume and holds pipe 3 is glass. The glass is common transparent glass, and the transparent glass is favorable for directly observing the sand amount in the sand amount containing pipe 3 and the sand amount containing box 1, so that the flow velocity of the wind sand can be visually observed.

The working principle is as follows: install the device in the position that the Gobi needs to monitor, wind blows sand in the husky chute 5 that catchments, because the bottom surface slope of the husky chute 5 that catchments sets up, so the husky in the husky chute 5 that catchments slides in the stand pipe 4 more easily, the husky that gets into in the stand pipe 4 falls again in the husky volume holds the pipe 3, the internal diameter of husky volume and holds the pipe 3 is smaller, so can the audio-visual change of the husky volume of seeing out in the husky volume holds the pipe 3, and then can more accurate monitor the velocity of flow of Gobi sand, when the husky volume of sand in holding the pipe 3 reaches certain volume after, reopen switch module 2, make the hourglass that the husky volume of sand held the pipe 3 to the husky volume hold in 1, then close switch module 2, so can continue to monitor the velocity of flow of wall Gobi sand again, provide more accurate guide for the people.

The preferred structure of the sand chute 5 is: the sand gathering chute 5 comprises a sand gathering hopper 51 and a sand leaking nozzle 52 which are formed into a whole, the bottom surface of the sand gathering hopper 51 is obliquely arranged, the sand leaking nozzle 52 is connected with the guide pipe 4, the width of the sand gathering hopper 51 is gradually reduced from the direction far away from the sand leaking nozzle 52 to the direction close to the sand leaking nozzle 52, the wide end of the sand gathering hopper 51 is connected with sand, and the width of the other end is narrowed, so that the sand is gathered at the sand leaking nozzle 52.

The preferred construction of the guide tube 4 is: the guide pipe 4 comprises an upper connecting section 43, a guide section 42 and a lower connecting section 41 which are sequentially formed into a whole from top to bottom, the upper connecting section 43 is connected with the sand leaking nozzle 52 through threads, and the lower connecting section 41 is connected with the sand containing pipe 3 through threads.

Preferably, the inner diameter of the guide section 42 gradually decreases from top to bottom, so that the inner diameter of the sand containing pipe 3 is smaller, the change of the sand amount in the sand containing pipe 3 can be seen more intuitively, and the change of the flow velocity of the sand blown by the wind can be seen more intuitively.

Example 2:

as shown in fig. 1 to 7, on the basis of the above embodiment 1, the present embodiment provides a preferable structure of the switch assembly 2: the switch assembly 2 includes an upper switch 22 and a lower switch 21, the upper switch 22 being installed at an upper portion of the sand containing pipe 3, the lower switch 21 being installed at a lower portion of the sand containing pipe 3, and both the upper switch 22 and the lower switch 21 being capable of closing the sand containing pipe 3.

In this embodiment: when the sand in the sand containing pipe 3 reaches a certain amount, the lower switch 21 can be opened and closed, the upper switch 22 is closed, then the sandglass in the sand containing pipe 3 enters the sand containing box 1, and the sand flowing from the sand collecting chute 5 is continuously blocked in the sand containing pipe 3 by the upper switch 22; when all the sand in the sand containing pipe 3 below the upper switch 22 leaks into the sand containing box 1, the lower switch 21 is closed and the upper switch 22 is opened, so that the continuous monitoring of the flow rate of the sand can be realized.

Preferably, the sand containing box 1 comprises a connecting mouth 12 and a box body 11 which are formed into a whole, the connecting mouth 12 is connected with the lower end of the sand containing pipe 3 through threads, and the sand collecting chute 5, the guide pipe 4, the sand containing pipe 3 and the sand containing box 1 are connected through threads, so that the device is convenient to rapidly disassemble and assemble; the box 11 is square so that the box 11 can hold more sand.

The embodiment of the present invention is the above. The specific parameters in the above embodiments and examples are only for the purpose of clearly illustrating the verification process of the present invention, and are not intended to limit the scope of the present invention, which is still subject to the claims.

Claims (7)

1. The utility model provides a be used for real-time continuous monitoring devices of gobi sand blown by the wind velocity of flow sand volume which characterized in that: including converging husky chute (5), the bottom surface slope of converging husky chute (5) sets up, the one end of converging husky chute (5) is connected with stand pipe (4) that is located vertical direction, the lower extreme of stand pipe (4) is connected with husky volume and holds pipe (3), the lower extreme that husky volume held pipe (3) is connected with husky volume and holds case (1), be equipped with switch module (2) on stand pipe (4), husky volume holds case (1) and goes up to be carved with down scale mark (6) along its direction of height, husky volume holds and is carved with scale mark (7) along its direction of height on pipe (3), the material that husky volume held case (1) and husky volume and holds pipe (3) is glass.

2. The device for real-time and continuous monitoring of the sand flow rate and the sand quantity of the Gobi sand blown by wind according to claim 1, wherein: the sand gathering chute (5) comprises a sand gathering hopper (51) and a sand leaking nozzle (52) which are formed into a whole, the bottom surface of the sand gathering hopper (51) is arranged in an inclined mode, and the sand leaking nozzle (52) is connected with the guide pipe (4).

3. The device for real-time and continuous monitoring of the sand flow rate and the sand quantity of the Gobi sand blown by wind according to claim 2, is characterized in that: the width of the sand gathering hopper (51) is gradually reduced from the direction far away from the sand leaking nozzle (52) to the direction close to the sand leaking nozzle (52).

4. The device for real-time and continuous monitoring of the sand flow rate and the sand quantity of the Gobi sand blown by wind according to claim 2, is characterized in that: the guide pipe (4) comprises an upper connecting section (43), a guide section (42) and a lower connecting section (41) which are sequentially formed into a whole from top to bottom, the upper connecting section (43) is in threaded connection with the sand leaking nozzle (52), and the lower connecting section (41) is in threaded connection with the sand containing pipe (3).

5. The device for real-time and continuous monitoring of the sand flow rate and the sand quantity of the Gobi sand wind according to claim 4, wherein: the inner diameter of the guide section (42) is gradually reduced from top to bottom.

6. The device for real-time and continuous monitoring of the sand flow rate and the sand quantity of the Gobi sand blown by wind according to claim 1, wherein: the switch assembly (2) comprises an upper switch (22) and a lower switch (21), the upper switch (22) is installed at the upper part of the sand containing pipe (3), the lower switch (21) is installed at the lower part of the sand containing pipe (3), and both the upper switch (22) and the lower switch (21) can close the sand containing pipe (3).

7. The device for real-time and continuous monitoring of the sand flow rate and the sand amount of the Gobi sand blown by wind according to any one of claims 1 to 6, wherein: the sand volume holds case (1) and includes connecting mouth (12) and box (11) as an organic whole of shaping each other, connecting mouth (12) and the lower extreme that sand volume held pipe (3) pass through threaded connection, box (11) are squarely.

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