CN216483358U - Ecological real-time water level flow monitoring facilities - Google Patents

Abstract

The utility model discloses ecological real-time water level and flow monitoring equipment which comprises an equipment body, wherein a display and a level gauge are respectively and fixedly arranged on the equipment body, a groove and a notch are respectively formed in the equipment body, and a driver and a traction rod which are connected are respectively arranged in the groove. The utility model is provided with the driver and the limit bolt which are respectively positioned in the groove and the gap, so that the limit bolt realizes regulation and control under the connection control action of the level gauge, thereby ensuring that the machine body, the probe and the correcting rod are always in a stable vertical state, and ensuring the accuracy of ultrasonic wave transmitting and receiving lines; through setting up empty case and the support that corresponds from top to bottom, set up in the support and connect driven probe and correction stick by the pneumatic cylinder, after the installation of cooperation open channel weir groove is used, measure the water level in standardized measurement weir, the inslot with the time difference of ultrasonic wave launching wave and back wave, convert into the flow through the changer with ISO flow standard calculation method to carry out convenient high-efficient and accurate measurement to the open channel water level.

Description

Ecological real-time water level flow monitoring facilities

Technical Field

The utility model relates to the technical field of water body monitoring, in particular to ecological real-time water level and flow monitoring equipment.

Background

As the population base increases, the demand for fresh water resources increases day by day, and various countermeasures have been developed in recent years in response to the development of sustainability. According to the discharge Standard of Water pollutants for medical institutions (GB 18466-2005) 3.2: the medical wastewater is the medical wastewater discharged from outpatients, wards, operating rooms, various inspection rooms, pathological dissection rooms, radiation rooms, laundries, Taiping rooms and other places, and the medical wastewater is uniformly treated when other wastewater is mixed with the wastewater and discharged. All the wastewater generated in the project is finally merged, treated and discharged, so that all the wastewater is medical wastewater, and the wastewater is specifically divided into general medical wastewater and special medical wastewater.

Under the existing conditions, certain purification measures must be taken for the water body to prevent water source pollution and waste in a wider range, therefore, certain water areas need to be monitored frequently, indexes such as depth and flow are included, particularly, the water area positions of partial open channels are limited, due to the defects of the existing monitoring equipment, related monitoring operation is difficult to carry out, accurate information of specific water areas cannot be obtained accurately, unpredictable negative effects exist on subsequent processes such as recovery, purification and recycling, and water resource circulation in an ecological circle is seriously damaged.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that the water level flow is difficult to monitor in real time in the prior art, and provides ecological real-time water level flow monitoring equipment.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an ecological real-time water level flow monitoring facilities, includes the organism, fixed mounting has display and spirit level respectively on the organism, and sets up fluted and breach respectively in the organism, be provided with driver and the traction lever that is connected respectively in the recess, and the round pin hub connection has the adjuster that is connected with the traction lever in the breach, set up the draw-in groove in the organism, and be provided with the telescopic link and the spacing bolt that are connected respectively in the draw-in groove, respectively fixedly connected with empty case and support on the organism, and seted up guide way and guiding hole respectively in empty case and the support, fixed mounting has the pneumatic cylinder in the empty case, and movable mounting has the probe that is connected with the pneumatic cylinder output in the support, probe lower extreme an organic whole is connected with the correction stick, and the organism lower extreme is connected with remote control panel.

Preferably, the display is located at the front end face of the machine body, and the level gauge is horizontally located at the top end of the machine body.

Preferably, the groove and the notch are located at the top end of the left side of the machine body, the driver is fixedly installed in the groove, one end, connected with the output end of the driver, of the traction rod is slidably sleeved in the groove, and the other end of the traction rod is connected with the upper end of the adjuster through a pin shaft.

Preferably, the draw-in groove is seted up perpendicularly in organism left side upper end position, telescopic link fixed mounting is in the draw-in groove upper end, and the spacing bolt activity that is connected with the telescopic link output extends outside the draw-in groove lower extreme.

Preferably, the empty box and the support are correspondingly positioned on the right side wall of the machine body from top to bottom, and the guide groove and the guide hole are correspondingly horizontally formed from top to bottom.

Preferably, the probe is slidably sleeved in the guide groove and the guide hole, and the probe and the remote control panel are connected with the lower end of the machine body through leads.

Compared with the prior art, the utility model has the following advantages:

1. the utility model is provided with a groove and a gap in the machine body, and the draw bar is provided with a driver and a limit bolt which are respectively positioned in the groove and the gap, so that the limit bolt can realize regulation and control under the connection control action of the level gauge, and the machine body, the probe and the straightening rod are always in a stable vertical state.

2. The machine body is provided with an empty box and a support which correspond up and down so as to be convenient for arranging a probe and a correcting rod which are connected and driven by a hydraulic cylinder in the support, after the probe and the correcting rod are matched with an open channel weir groove to be installed and used, the water level in a standardized metering weir and a standardized metering groove is measured by using the time difference of ultrasonic wave transmitting waves and reflected waves, and the flow is converted into the flow by a transmitter by using an ISO flow standard calculation method.

In summary, the utility model is provided with the driver and the limit bolt respectively positioned in the groove and the gap, so that the limit bolt can be regulated and controlled under the connection control action of the level gauge, thereby ensuring that the machine body, the probe and the correcting rod are always in a stable vertical state, and ensuring the accuracy of ultrasonic wave transmitting and receiving lines; through setting up empty case and the support that corresponds from top to bottom, set up in the support and connect driven probe and correction stick by the pneumatic cylinder, after the installation of cooperation open channel weir groove is used, measure the water level in standardized measurement weir, the inslot with the time difference of ultrasonic wave launching wave and back wave, convert into the flow through the changer with ISO flow standard calculation method to carry out convenient high-efficient and accurate measurement to the open channel water level.

Drawings

FIG. 1 is a schematic structural diagram of an ecological real-time water level and flow monitoring device according to the present invention;

FIG. 2 is an enlarged schematic view of a part A of the ecological real-time water level and flow monitoring device according to the present invention;

fig. 3 is a top view of an ecological real-time water level and flow monitoring device according to the present invention.

In the figure: the device comprises a machine body 1, a display 2, a level 3, a groove 4, a gap 5, a driver 6, a traction rod 7, an adjuster 8, a clamping groove 9, a telescopic rod 10, a limiting bolt 11, an empty box 12, a bracket 13, a guide groove 14, a guide hole 15, a hydraulic cylinder 16, a probe 17, a straightening rod 18 and a remote control panel 19.

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.

Referring to fig. 1-3, an ecological real-time water level and flow monitoring device comprises a machine body 1, wherein a display 2 and a level 3 are respectively and fixedly installed on the machine body 1, the level 3 can adopt an ETOP00 type monitoring device, a groove 4 and a gap 5 are respectively formed in the machine body 1, a driver 6 and a traction rod 7 which are connected are respectively arranged in the groove 4, further, the driver 6 adopts a RM-WPLA wide platform type servo push rod, an adjuster 8 which is connected with the traction rod 7 is connected with the gap 5 through a pin shaft, the adjuster 8 is angularly adjusted by the driver 6 through the traction rod 7 to support the machine body 1 in different degrees, a clamping groove 9 is formed in the machine body 1, a telescopic rod 10 and a limit bolt 11 which are connected are respectively arranged in the clamping groove 9, the telescopic rod 10 adopts an electric telescopic device with a CAHB-10 product type, so as to lock and limit the machine body 1 on the side wall of the open channel, the machine body 1 is fixedly connected with an empty box 12 and a support 13 respectively, a guide groove 14 and a guide hole 15 are arranged in the empty box 12 and the support 13 respectively, a hydraulic cylinder 16 is fixedly arranged in the empty box 12, the hydraulic cylinder 16 adopts hydraulic equipment with the product model of SCD50x100-100-LB, a probe 17 connected with the output end of the hydraulic cylinder 16 is movably arranged in the support 13, the lower end of the probe 17 is integrally connected with a correcting rod 18, and the lower end of the machine body 1 is connected with a remote control panel 19, further, the probe 17 and the correcting rod 18 can send ultrasonic waves to the liquid level at the position to be measured, the water level in a standardized metering weir and a groove is measured by utilizing the time difference of ultrasonic wave transmitting waves and reflected waves, and the flow is converted into flow by using an ISO flow standard calculation method through a transmitter.

The display 2 is located the preceding terminal surface position of organism 1 to the relevant numerical value of manual observation, and the spirit level 3 level is located organism 1 top position, thereby provides the judgement basis to whether organism 1 is in the horizontality.

The groove 4 and the gap 5 are located at the top end of the left side of the machine body 1, the driver 6 is fixedly installed in the groove 4, one end, connected with the output end of the driver 6, of the traction rod 7 is slidably sleeved in the groove 4, the other end of the traction rod 7 is connected with the upper end of the adjuster 8 through a pin shaft, and under the driving action of the driver 6, the adjuster 8 is pulled, pushed and pulled through the traction rod 7, so that the adjuster 8 can incline to different degrees, a supporting effect is provided for the machine body 1 at the side wall of the open channel, and the machine body 1 is ensured to be in a horizontal state.

The draw-in groove 9 is seted up perpendicularly in organism 1 left side upper end position, and telescopic link 10 fixed mounting is in draw-in groove 9 upper end, and the spacing bolt 11 activity that is connected with telescopic link 10 output extends outside draw-in groove 9 lower extreme to it is fixed to lock organism 1 in open channel lateral wall position.

The empty box 12 and the support 13 are correspondingly positioned on the right side wall of the machine body 1 from top to bottom, and the guide groove 14 and the guide hole 15 are correspondingly horizontally formed from top to bottom, so that the probe 17 and the straightening rod 18 are driven in the horizontal direction, and the probe 17 and the straightening rod 18 can vertically correspond to a position to be measured.

The probe 17 is slidably sleeved in the guide groove 14 and the guide hole 15, the probe 17 and the remote control panel 19 are both connected with the lower end of the machine body 1 through a wire, and the machine body 1 can be remotely operated through the remote control panel 19 so as to facilitate manual operation.

The utility model can be illustrated by the following operating modes:

horizontally placing the machine body 1 on the side wall of the open channel, and judging whether the machine body 1 is in a horizontal state according to the level meter 3;

if the machine body 1 is in an unbalanced state, the driver 6 is controlled to move through the remote control panel 19, the driver 6 drives the traction rod 7, so that the traction rod 7 slides in the groove 4, the adjuster 8 is pulled or pushed, and the adjuster 8 deflects in the notch 5 to provide different degrees of support for the machine body 1, so that the machine body 1 tends to be horizontal;

the output end of the telescopic rod 10 is controlled to extend through the remote control panel 19, so that the limit bolt 11 extends out of the clamping groove 9 to limit and fix the machine body 1;

the hydraulic cylinder 16 is controlled to be opened through the remote control panel 19, the hydraulic cylinder 16 pulls the probe 17 to move back and forth in the bracket 15, so that the correcting rod 18 synchronously moves horizontally along with the probe 17, and the probe 17 and the correcting rod 18 are ensured to vertically correspond to a position to be measured;

the probe 17 and the correcting rod 18 measure the water level in the standardized measuring weir and the tank by using the time difference of the ultrasonic wave transmitting wave and the reflected wave, and convert the water level into flow by using an ISO flow standard calculation method through a transmitter so as to obtain the liquid level depth and the flow of the position to be measured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. An ecological real-time water level and flow monitoring device comprises a machine body (1) and is characterized in that a display (2) and a level gauge (3) are fixedly mounted on the machine body (1) respectively, a groove (4) and a notch (5) are formed in the machine body (1), a driver (6) and a traction rod (7) which are connected are arranged in the groove (4) respectively, an adjuster (8) which is connected with the traction rod (7) is connected to a pin shaft in the notch (5), a clamping groove (9) is formed in the machine body (1), a telescopic rod (10) and a limiting bolt (11) which are connected are arranged in the clamping groove (9) respectively, an empty box (12) and a support (13) are fixedly connected to the machine body (1) respectively, a guide groove (14) and a guide hole (15) are formed in the empty box (12) and the support (13) respectively, and a hydraulic cylinder (16) is fixedly mounted in the empty box (12), and a probe (17) connected with the output end of the hydraulic cylinder (16) is movably mounted in the support (13), the lower end of the probe (17) is integrally connected with a correcting rod (18), and the lower end of the machine body (1) is connected with a remote control panel (19).

2. The ecological real-time water level and flow rate monitoring device as claimed in claim 1, wherein the display (2) is located at the front end face of the machine body (1), and the level (3) is horizontally located at the top end position of the machine body (1).

3. The ecological real-time water level and flow monitoring device as claimed in claim 2, wherein the groove (4) and the gap (5) are located at the top position of the left side of the machine body (1), the driver (6) is fixedly installed in the groove (4), one end of the traction rod (7) connected with the output end of the driver (6) is slidably sleeved in the groove (4), and the other end of the traction rod (7) is connected with the upper end of the adjuster (8) through a pin shaft.

4. The ecological real-time water level and flow monitoring device as claimed in claim 1, wherein the slot (9) is vertically arranged at the upper end of the left side of the machine body (1), the telescopic rod (10) is fixedly arranged in the upper end of the slot (9), and the limit bolt (11) connected with the output end of the telescopic rod (10) movably extends out of the lower end of the slot (9).

5. The ecological real-time water level and flow monitoring device as claimed in claim 1, wherein the empty box (12) and the bracket (13) are correspondingly positioned on the right side wall of the machine body (1) from top to bottom, and the guide groove (14) and the guide hole (15) are correspondingly horizontally opened from top to bottom.

6. The ecological real-time water level and flow monitoring device as claimed in claim 5, wherein the probe (17) is slidably sleeved in the guide groove (14) and the guide hole (15), and the probe (17) and the remote control panel (19) are connected with the lower end of the machine body (1) through wires.

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