CN207263197U - Hydraulic engineering wireless remote monitoring terminal - Google Patents

Abstract

The utility model discloses the hydraulic engineering wireless remote monitoring terminal of hydrological monitoring technical field,Including mounting seat,Lower support bar has been connected by screw at the top center of the mounting seat,Casing is welded with the top of the lower support bar,The outer wall of described sleeve pipe is socketed with floating ball,Outer magnet is connected with the top of the floating ball,And outer magnet is socketed in the outer wall of casing,Stent has been connected by screw at the top of described sleeve pipe outer wall,Wireless launcher and solar photovoltaic battery component are connected at left and right sides of the cradle top,Rubber seal is plugged with the top of described sleeve pipe,The inner cavity of described sleeve pipe is vertically arranged with resistance bar,The outer wall of the resistance bar is socketed with conductor sliding sleeve,The outer wall of the conductor sliding sleeve is connected with inner magnet,The top of the resistance bar is provided with support plate,Hydraulic engineering wireless remote monitoring terminal,It is simple in structure,It is easy to use,In a manner of using size of current as signal,Measurement accuracy is higher.

Description

Hydraulic engineering wireless remote monitoring terminal

Technical field

Hydrological monitoring technical field is the utility model is related to, is specially hydraulic engineering wireless remote monitoring terminal.

Background technology

Hydraulic engineering is the surface water and groundwater for controlling and allocating nature, reaches and removes the evil emerging sharp purpose and build Engineering.Also referred to as Hydraulic Projects.Water is human being's production and essential precious resources of living, but the state of its naturally occurring is simultaneously Not in full conformity with the needs of the mankind.Hydraulic engineering is only built, current could be controlled, prevents flood, and carry out water Adjust and distribute, to meet that people's lives and production to the needs of water resource, are needed to monitor in real time, can met for water level Control to water, original monitor mode usually manually monitors or water-level alarm equipment, the function without remote transmission, For this reason, we have proposed hydraulic engineering wireless remote monitoring terminal.

Utility model content

The purpose of this utility model is to provide hydraulic engineering wireless remote monitoring terminal, to solve above-mentioned background technology Original monitor mode of middle proposition is usually that manually monitoring or water-level alarm equipment, the function without remote transmission are asked Topic.

To achieve the above object, the utility model provides following technical solution：Hydraulic engineering wireless remote monitoring terminal, Including mounting seat, lower support bar, the top of the lower support bar have been connected by screw at the top center of the mounting seat Portion is welded with casing, and the outer wall of described sleeve pipe is socketed with floating ball, outer magnet is connected with the top of the floating ball, and outer magnet is socketed Stent, the left and right sides difference of the cradle top have been connected by screw at the top of the outer wall of casing, described sleeve pipe outer wall Wireless launcher and solar photovoltaic battery component are connected with, rubber seal, described sleeve pipe are plugged with the top of described sleeve pipe Inner cavity be vertically arranged with resistance bar, the outer wall of the resistance bar is socketed with conductor sliding sleeve, the outer wall clamping of the conductor sliding sleeve There is inner magnet, the top of the resistance bar is provided with support plate, electric current is respectively arranged with left and right sides of the top of the support plate Test equipment and storage battery, the inner wall upper end of described sleeve pipe are provided with controller by screw, the resistance bar, conductor sliding sleeve, Testing current equipment and storage battery series connection, the solar photovoltaic battery component are connected by conducting wire with storage battery, the control Device is connected with testing current equipment, wireless launcher respectively by data cable.

Preferably, the bottom four corners of the mounting seat are welded with embedded cone.

Preferably, described sleeve pipe is polyethylene cannula.

Preferably, the left and right sidewall of described sleeve pipe inner cavity is vertically arranged with sliding slot, the left and right two of the inner magnet outer wall Side is both provided with the sliding block being adapted with sliding slot.

Compared with prior art, the beneficial effects of the utility model are：Hydraulic engineering wireless remote monitoring terminal, knot Structure is simple, easy to use, and in a manner of using size of current as signal, measurement accuracy is higher.

Brief description of the drawings

Fig. 1 is the utility model structure diagram；

Fig. 2 is the sectional view of the utility model u pper s ide；

Fig. 3 is the circuit diagram of the utility model.

In figure：1 mounting seat, 2 lower support bars, 3 casings, 4 floating balls, 5 outer magnets, 6 stents, 7 wireless launchers, 8 are too Positive energy photovoltaic cell component, 9 rubber seals, 10 resistance bars, 11 inner magnets, 12 conductor sliding sleeves, 13 support plates, 14 testing currents are set Standby, 15 storage batteries, 16 controllers.

Embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work All other embodiments obtained, shall fall within the protection scope of the present invention.

- 3 are please referred to Fig.1, the utility model provides a kind of technical solution：Hydraulic engineering wireless remote monitoring terminal, bag Mounting seat 1 is included, lower support bar 2, the top welding of lower support bar 2 have been connected by screw at the top center of mounting seat 1 There is casing 3, the outer wall of casing 3 is socketed with floating ball 4, and the top of floating ball 4 is connected with outer magnet 5, and outer magnet 5 is socketed in casing 3 Outer wall, stent 6 has been connected by screw at the top of 3 outer wall of casing, the left and right sides at the top of stent 6 is connected to wireless hair Injection device 7 and solar photovoltaic battery component 8, the top of casing 3 are plugged with rubber seal 9, and the inner cavity of casing 3 is vertically arranged with Resistance bar 10, the outer wall of resistance bar 10 are socketed with conductor sliding sleeve 12, and the outer wall of conductor sliding sleeve 12 is connected with inner magnet 11, resistance bar 10 top is provided with support plate 13, and testing current equipment 14 and storage battery are respectively arranged with left and right sides of the top of support plate 13 15, the inner wall upper end of casing 3 is provided with controller 16, resistance bar 10, conductor sliding sleeve 12,14 and of testing current equipment by screw Storage battery 15 is connected, and solar photovoltaic battery component 8 is connected by conducting wire with storage battery 15, and controller 16 is distinguished by data cable It is connected with testing current equipment 14, wireless launcher 7.

Wherein, the bottom four corners of mounting seat 1 are welded with embedded cone, and casing 3 is polyethylene cannula, 3 inner cavity of casing Left and right sidewall is vertically arranged with sliding slot, and the sliding block being adapted with sliding slot is both provided with left and right sides of 11 outer wall of inner magnet.

Operation principle：Controller 16 is programmed so that controller 16 meets the reception conversion and output of signal, will install bottom Seat 1 is inserted in the water environment for needing to detect, and keeps lower support bar 2 vertical with casing 3, and solar photovoltaic battery component 8 will too Sun can be converted to electric energy and store into storage battery 15, and the position of floating ball 4 changes with the position of dampening, so that floating ball 4 links outside Magnet 5, outer magnet 5 keep being synchronized with the movement with inner magnet 11 under the action of magnetic attraction, and inner magnet 11 is with moving-conductor sliding sleeve 12 The upper end of movement, lower support bar 2 and resistance bar 10 is connected (with slide rheostat with the positive and negative anodes of storage battery 15 by conducting wire respectively Principle is identical, as shown in Figure 3), when conductor sliding sleeve 12 rises, the resistance in circuit diminishes, and electric current becomes larger, otherwise electric current becomes It is small, it is connected in series to using this graph of a relation as the basis of analysis SEA LEVEL VARIATION situation, testing current equipment 14 in the circuit, testing current Equipment 14 is detected the electric current in circuit, and data are transmitted to controller 16 in a manner of digital signal, controller 16 Data are subjected to wireless remote transmission by solar photovoltaic battery component 8.

While there has been shown and described that the embodiment of the utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from the principle of the utility model and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (4)

1. hydraulic engineering wireless remote monitoring terminal, including mounting seat (1), it is characterised in that：The mounting seat (1) Lower support bar (2) has been connected by screw at top center, casing (3), the set are welded with the top of the lower support bar (2) The outer wall of pipe (3) is socketed with floating ball (4), outer magnet (5) is connected with the top of the floating ball (4), and outer magnet (5) is socketed in The outer wall of (3) is managed, has been connected by screw stent (6) at the top of described sleeve pipe (3) outer wall, the left and right at the top of the stent (6) Both sides are connected to wireless launcher (7) and solar photovoltaic battery component (8), and described sleeve pipe is plugged with the top of (3) Rubber seal (9), the inner cavity of described sleeve pipe (3) are vertically arranged with resistance bar (10), and the outer wall of the resistance bar (10) is socketed with Conductor sliding sleeve (12), the outer wall of the conductor sliding sleeve (12) are connected with inner magnet (11), and the top of the resistance bar (10) is set There is support plate (13), testing current equipment (14) and storage battery are respectively arranged with left and right sides of the top of the support plate (13) (15), the inner wall upper end of described sleeve pipe (3) is provided with controller (16), the resistance bar (10), conductor sliding sleeve by screw (12), testing current equipment (14) and storage battery (15) series connection, the solar photovoltaic battery component (8) pass through conducting wire and electric power storage Pond (15) connects, and the controller (16) is connected with testing current equipment (14), wireless launcher (7) respectively by data cable Connect.

2. hydraulic engineering according to claim 1 wireless remote monitoring terminal, it is characterised in that：The mounting seat (1) bottom four corners are welded with embedded cone.

3. hydraulic engineering according to claim 1 wireless remote monitoring terminal, it is characterised in that：Described sleeve pipe (3) is Polyethylene cannula.

4. hydraulic engineering according to claim 1 wireless remote monitoring terminal, it is characterised in that：In described sleeve pipe (3) The left and right sidewall of chamber is vertically arranged with sliding slot, is both provided with left and right sides of inner magnet (11) outer wall and is adapted with sliding slot Sliding block.