CN210689764U - Wireless acquisition type radar level gauge - Google Patents

Abstract

The utility model discloses a wireless acquisition type radar liquid level meter, which comprises a control panel, a data box, a connecting cylinder, a sensor, a connecting flange and a chassis, the lower end of the control panel is connected with a data box, the lower end of the data box is fixedly connected with a connecting cylinder, the lower end of the connecting cylinder is movably connected with a sensor, a connecting flange is fixedly arranged between the connecting cylinder and the sensor, the lower end of the connecting flange is fixedly arranged with a chassis, a signal receiver is arranged, can be remotely controlled without consuming energy to wire, reduces the production cost, greatly reduces the energy consumption, has more convenient and practical operation than before, meanwhile, the hands of workers are liberated, the liquid level meter is fixed on an iron support, the liquid level meter is more suitable for rivers and lakes, the installation is simpler and more convenient, and the data box is also installed, data is recorded into a data box at the same time as the data is surveyed so as not to be lost to bring economic loss.

Description

Wireless acquisition type radar level gauge

Technical Field

The utility model relates to a radar material level technical field specifically is a wireless acquisition type radar level gauge.

Background

Radar level gauges are measuring instruments based on the time-travel principle, the radar waves running at the speed of light, the running time being converted into a level signal by electronic components. The probe emits high frequency pulses which propagate along the cable, and when the pulses encounter the surface of the material, the pulses are reflected back to be received by a receiver in the instrument, and the distance signals are converted into level signals.

However, with the progress of the times, the radar level gauge is applied to the field more widely, the defects are reflected, the information acquisition cannot be controlled in a wireless long distance, and only the control can be carried out through a cable, so that the energy consumption is inevitably high, and the resources and the cost are wasted.

To above not enough, provide a novel radar charge level indicator, can wireless collection information, do not need the wiring, reduce the energy consumption, and convenient and practical more, can also lean on solar energy to collect the energy in addition, utilize natural energy maximize, reduce cost is applicable to mountain area riverbed, lake liquid level collection.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wireless collection type radar level gauge adopts this device to gather, and convenient and fast need not the wiring, greatly reduced energy consumption, the energy saving, the high repayment of low cost has solved prior art wiring trouble, and the energy consumption is more, the higher problem of cost.

In order to achieve the above object, the utility model provides a following technical scheme: a wireless acquisition type radar liquid level meter comprises a control panel, a data box, a connecting cylinder, a sensor, a connecting flange and a chassis, wherein the lower end of the control panel is connected with the data box, the lower end of the data box is fixedly connected with the connecting cylinder, the lower end of the connecting cylinder is movably connected with the sensor, the connecting flange is fixedly installed between the connecting cylinder and the sensor, the chassis is fixedly installed at the lower end of the connecting flange, the control panel comprises a display screen and a control button, the display screen is installed on the upper surface of the control panel in an embedded mode, and the control button is installed at; the data case includes power supply room and signal receiver, and the power supply room is installed at the data case surface, and signal receiver fixed mounting is on the power supply room right side, signal receiver downside fixed connection connecting cylinder, the connecting cylinder includes solar tube and threaded rod, and solar tube fixed mounting is on the connecting cylinder, connecting cylinder lower extreme fixed threaded rod, threaded rod downside and sensor swing joint, and the connecting cylinder is connected flange through solar tube.

Furthermore, the connecting flange comprises a connecting rod, a first connector and a second connector, the connecting rod is fixed to the lower surface of the connecting flange, the first connector and the second connector are installed on the connecting flange in a penetrating mode, the first connector is used for movably connecting the solar tube, the connecting flange and the connecting rod, and the second connector is used for movably connecting the connecting cylinder and the sensor.

Furthermore, the power supply room comprises a sealing door which is movably connected to the power supply room.

Furthermore, the connecting flange is connected with the chassis through a connecting rod, a lubricating plug is installed at the connecting position of the connecting rod and the chassis, and the chassis is installed on the right lower side of the connecting flange.

Further, the signal receiver controls the power supply room, the display screen and the control buttons.

Furthermore, the connecting rod and the solar tube are movably connected to the chassis and the connecting flange.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model provides a wireless collection type radar level gauge has installed signal receiver, can remote control, need not to expend energy again and goes the wiring, has reduced manufacturing cost, also greatly reduced the energy consumption, the operation also than before convenient and practical more, also liberated labourer's both hands simultaneously.

2. The utility model provides a wireless collection type radar level gauge fixes the level gauge on the iron stand platform, is suitable for more at the mountain and lake, installs more simple and convenient, has installed the data box simultaneously, with data record to the data box in surveying data to avoid losing and bring economic loss.

3. The utility model provides a wireless collection type radar level gauge installs the solar tube, turns into the electric energy with solar energy and supplies the device to use, greatly reduced the cost, also reduced the energy consumption, and more safety pollution-free, environmental protection.

Drawings

FIG. 1 is a schematic view of the installation structure of the wireless acquisition type radar level gauge of the present invention;

FIG. 2 is a schematic structural view of the wireless acquisition type radar level gauge of the present invention;

FIG. 3 is a schematic view of the control panel of the present invention;

fig. 4 is a schematic view of the structure of the mounting frame of the present invention.

In the figure: 1. a control panel; 11. a display screen; 12. a control button; 2. a data box; 21. a power supply chamber; 211. A sealing door; 22. a signal receiver; 3. a connecting cylinder; 31. a solar tube; 32. a threaded pipe; 4. a sensor; 5. a connecting flange; 51. a connecting rod; 511. a lubricating plug; 52. an interface I; 53. a second interface; 6. a chassis.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, a wireless acquisition type radar level gauge comprises a control panel 1, a data box 2, a connecting cylinder 3, a sensor 4, a connecting flange 5 and a chassis 6, wherein the lower end of the control panel 1 is connected with the data box 2, the lower end of the data box 2 is fixedly connected with the connecting cylinder 3, the lower end of the connecting cylinder 3 is movably connected with the sensor 4, the connecting flange 5 is fixedly installed between the connecting cylinder 3 and the sensor 4, the lower end of the connecting flange 5 is fixedly installed on the chassis 6, the control panel 1 comprises a display screen 11 and a control button 12, the display screen 11 is embedded and installed on the upper surface of the control panel 1, the control button 12 is installed on the lower side of the display screen 11, the data box 2 comprises a power supply chamber 21 and a signal receiver 22, the power supply chamber 21 is installed on the outer surface of the data box 2, the signal receiver 22 is fixedly installed on the right side, the solar tube 31 is fixedly arranged on the connecting cylinder 3, the lower end of the connecting cylinder 3 is fixedly provided with the threaded rod 32, the lower side of the threaded rod 32 is movably connected with the sensor 4, the connecting cylinder 3 is connected with the connecting flange 5 through the solar tube 31, the connecting flange 5 comprises a connecting rod 51, a first connector 52 and a second connector 53, the connecting rod 51 is fixed on the lower surface of the connecting flange 5, the first connector 52 and the second connector 53 are arranged on the connecting flange 5 in a penetrating way, the first connector 52 is used for movably connecting the solar tube 31, the connecting flange 5 and the connecting rod 51, the second connector 53 is used for movably connecting the connecting cylinder 3 and the sensor 4, the power supply chamber 21 comprises a sealing door 211 which is movably connected on the power supply chamber 21, the connecting flange 5 is connected with the chassis 6 through the connecting rod 51, a lubricating plug 511 is arranged at the joint of the connecting rod 51 and the chassis, the signal receiver 22 controls the power supply chamber 21, the display screen 11 and the control button 12, and the connecting rod 51 and the solar tube 31 are movably connected to the chassis 6 and the connecting flange 5.

In summary, the following steps: the wireless acquisition type radar liquid level meter comprises a control panel 1, a data box 2 connected to the lower end of the control panel 1, a connecting cylinder 3 fixedly connected to the lower end of the data box 2, a sensor 4 movably connected to the lower end of the connecting cylinder 3, a connecting flange 5 fixedly installed between the connecting cylinder 3 and the sensor 4, a chassis 6 fixedly installed at the lower end of the connecting flange 5, a display screen 11 mounted on the upper surface of the control panel 1 in an embedded manner, a control button 12 installed at the lower side of the display screen 11, a power supply chamber 21 installed on the outer surface of the data box 2, a signal receiver 22 fixedly installed at the right side of the power supply chamber 21, a connecting cylinder 3 fixedly connected to the lower side of the signal receiver 22, a solar tube 31 fixedly installed on the connecting cylinder 3, a threaded rod 32 fixed to the lower end of the connecting cylinder 3, the lower side of the threaded rod 32 movably connected with the sensor 4, the connecting cylinder 3, the first interface 52 movably connects the solar tube 31, the connecting flange 5 and the connecting rod 51, the second interface 53 movably connects the connecting cylinder 3 and the sensor 4, the power supply chamber 21 comprises a sealing door 211 movably connected to the power supply chamber 21 by the sealing door 211, the connecting flange 5 is connected with the chassis 6 by the connecting rod 51, a lubricating plug 511 is installed at the joint of the connecting rod 51 and the chassis 6, the chassis 6 is installed right under the connecting flange 5, the signal receiver 22 controls the power supply chamber 21, the display screen 11 and the control button 12, the connecting rod 51 and the solar tube 31 are movably connected to the chassis 6 and the connecting flange 5, the signal receiver 22 is installed, remote control can be realized, energy consumption is not needed to be consumed to wire, the production cost is reduced, the energy consumption is greatly reduced, the operation is more convenient and practical than before, the hands of workers are liberated at the same time, the solar tube 31 is installed, the solar energy is converted into the electric energy for the device to use, so that the cost is greatly reduced, the energy consumption is reduced, the safety is higher, no pollution is caused, and the environment is protected.

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

Claims (6)

1. The utility model provides a wireless collection type radar level gauge, includes control panel (1), data box (2), connecting cylinder (3), sensor (4), flange (5) and chassis (6), data box (2) are connected to control panel (1) lower extreme, data box (2) lower extreme fixed connection connecting cylinder (3), connecting cylinder (3) lower extreme swing joint sensor (4), fixed mounting flange (5) between connecting cylinder (3) and sensor (4), flange (5) lower extreme fixed mounting chassis (6), its characterized in that: the control panel (1) comprises a display screen (11) and a control button (12), the display screen (11) is embedded in the upper surface of the control panel (1), and the control button (12) is arranged on the lower side of the display screen (11);

data box (2) include power supply room (21) and signal receiver (22), and power supply room (21) are installed at data box (2) surface, and signal receiver (22) fixed mounting is on power supply room (21) right side, and signal receiver (22) downside fixed connection connecting cylinder (3), connecting cylinder (3) are including solar tube (31) and threaded rod (32), and solar tube (31) fixed mounting is on connecting cylinder (3), connecting cylinder (3) lower extreme fixed threaded rod (32), threaded rod (32) downside and sensor (4) swing joint, and connecting cylinder (3) are connected flange (5) through solar tube (31).

2. A radar level gauge of the wireless acquisition type according to claim 1, wherein: connecting flange (5) are including connecting rod (51), interface (52) and No. two interfaces (53), and connecting rod (51) are fixed at connecting flange (5) lower surface, and interface (52) and No. two interfaces (53) run through and install on connecting flange (5), and interface (52) are with solar tube (31), connecting flange (5) and connecting rod (51) swing joint, and No. two interfaces (53) are with connecting cylinder (3) and sensor (4) swing joint.

3. A radar level gauge of the wireless acquisition type according to claim 1, wherein: the power supply chamber (21) comprises a sealing door (211), and the sealing door (211) is movably connected to the power supply chamber (21).

4. A radar level gauge of the wireless acquisition type according to claim 1, wherein: the connecting flange (5) is connected with the chassis (6) through a connecting rod (51), a lubricating plug (511) is installed at the connecting position of the connecting rod (51) and the chassis (6), and the chassis (6) is installed on the right lower side of the connecting flange (5).

5. A radar level gauge of the wireless acquisition type according to claim 1, wherein: the signal receiver (22) is electrically connected with the power supply chamber (21), the display screen (11) and the control button (12) respectively.

6. A radar level gauge of the wireless acquisition type according to claim 2, wherein: the connecting rod (51) and the solar tube (31) are movably connected to the chassis (6) and the connecting flange (5).

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