CN215493817U - Comprehensive energy monitoring device based on internet management and control - Google Patents
Comprehensive energy monitoring device based on internet management and control Download PDFInfo
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- CN215493817U CN215493817U CN202121427658.2U CN202121427658U CN215493817U CN 215493817 U CN215493817 U CN 215493817U CN 202121427658 U CN202121427658 U CN 202121427658U CN 215493817 U CN215493817 U CN 215493817U
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Abstract
The utility model discloses an integrated energy monitoring device based on internet management and control, which comprises an electric energy monitoring box, wherein a monitoring display screen is installed at the upper end of the electric energy monitoring box, a wire output pipe is installed at one side of the electric energy monitoring box, a wiring terminal is installed at the other side of the electric energy monitoring box, a connecting mechanism is installed at the bottom of the electric energy monitoring box, a liquid monitoring pipe is installed at the bottom of the connecting mechanism, and a flow counting box is installed at the upper end of the liquid monitoring pipe. The comprehensive energy monitoring device based on internet management and control realizes that the device can be used for monitoring and installing two types at the same time, the distance between the electric energy monitoring box and the liquid monitoring pipe is adjusted, the device is convenient to install and fix at different positions, the spiral cross structure of the spiral rotor reduces the volume of the rotor, the vertical installation mode accelerates the flowing speed of liquid, and the flow rate of the liquid can be monitored and used more smoothly and rapidly.
Description
Technical Field
The utility model relates to the field of monitoring devices, in particular to an integrated energy monitoring device based on internet management and control.
Background
The comprehensive energy monitoring device based on internet management and control is a device for monitoring energy use by internet management and control, such as electric energy, liquid energy, gas energy and the like, and is applied to various energy use occasions;
but current comprehensive energy monitoring devices based on internet management and control has certain weak point when using and awaits improving, at first, to in the service environment that needs multiple energy monitoring, can't realize that the device carries out two kinds of monitoring simultaneously and install the use to the installation of inconvenient device different positions is fixed, secondly, the rotor structure of traditional liquid energy monitoring is complicated, must be the mode of perpendicular installation, has reduced the speed that liquid flows when having led to the monitoring, can't unblocked quick carry out flow monitoring to liquid and use.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide an integrated energy monitoring device based on internet management and control, which can effectively solve the technical problem in the background technology.
In order to achieve the purpose, the utility model adopts the technical scheme that:
the utility model provides an integrated energy monitoring devices based on internet management and control, includes the electric energy monitoring box, the monitoring display screen is installed to the upper end of electric energy monitoring box, the wire output tube is installed to one side of electric energy monitoring box, binding post is installed to another time of electric energy monitoring box, coupling mechanism is installed to the bottom of electric energy monitoring box, liquid monitoring pipe is installed to coupling mechanism's bottom, the flow count box is installed to the upper end of liquid monitoring pipe, install connecting wire between electric energy monitoring box and the flow count box, butt joint pipe is all installed to the both sides of liquid monitoring pipe, the internally mounted of liquid monitoring pipe has flow monitoring mechanism.
As a further scheme of the utility model, the connecting mechanism comprises a lifting rod mounting block, a connecting lifting rod, a lifting mounting block, a locking screw and a fixing sleeve ring, the lifting rod mounting block is mounted at the front end and the rear end of the electric energy monitoring box, the connecting lifting rod is mounted at the lower end of the lifting rod mounting block, the lifting mounting block is mounted at the outer side of the connecting lifting rod, the locking screw is mounted at the front end and the rear end of the lifting mounting block in a threaded manner, and the fixing sleeve ring is mounted at the lower end of the lifting mounting block.
As a further scheme of the utility model, the connecting lifting rod penetrates through the lifting mounting block, the locking screws penetrate through the lifting mounting block and are connected with the connecting lifting rod, the number of the lifting mounting block and the fixed lantern ring is two, and the liquid monitoring tube is mounted on the inner side of the locking screws.
As a further aspect of the present invention, the flow monitoring mechanism includes a first buckle, a second buckle and a screw rotor, the first buckle and the second buckle are mounted on an inner surface of the liquid monitoring pipe, the first buckle is located above the second buckle, and the screw rotor is rotatably mounted at an intermediate position between the first buckle and the second buckle.
As a further aspect of the present invention, the spiral rotor is designed to be a cross-shaped spiral magnet structure, the spiral rotor is located below the flow rate counting box, and the butt joint pipe is inserted into the liquid monitoring pipe and connected to the first buckle and the second buckle.
As a further aspect of the present invention, the electric energy monitoring box is located above the flow counting box, and the electric energy monitoring box is electrically connected to the flow counting box through a connecting wire.
Compared with the prior art, the utility model has the following beneficial effects: according to the utility model, by arranging the connecting mechanism, when the electric energy monitoring box and the liquid monitoring pipe are installed and used, the liquid monitoring pipe is installed below the lifting installation block through the fixed sleeve ring, the electric energy monitoring box is provided with the connecting lifting rod through the lifting rod installation block, the connecting lifting rod plays a role in connecting with the lifting installation block, the electric energy monitoring box and the liquid monitoring pipe are connected, the connecting lifting rod can stretch out and draw back in the lifting installation block to adjust the connection distance, and a locking screw is tightened to fix after adjustment, so that the distance between the electric energy monitoring box and the liquid monitoring pipe is adjusted, the device can simultaneously carry out two kinds of monitoring and installation and use, and the installation and the fixation of different positions of the device are facilitated;
through setting up flow monitoring mechanism, liquid monitoring pipe carries out liquid flow monitoring time measuring, through butt joint union coupling liquid pipeline, then liquid gets into in the liquid monitoring pipe, structure through spiral rotor spiral cross, it is rotatory to drive the spiral rotor between first buckle and second buckle connection, magnet material through the spiral rotor, produce the electromagnetic induction with flow count box when rotatory, measure the monitoring to the liquid that flows, the spiral cross structure of spiral rotor has reduced the volume structure of rotor, and the speed that liquid flows has been accelerated to the mode of perpendicular installation, can more unblocked quick carry out flow monitoring to liquid and use.
Drawings
Fig. 1 is a schematic overall structure diagram of an integrated energy monitoring device based on internet management and control according to the present invention;
fig. 2 is a rear view of an integrated energy monitoring device based on internet management and control according to the present invention;
fig. 3 is a schematic diagram of a liquid monitoring pipe of an integrated energy monitoring device based on internet management and control according to the present invention.
In the figure: 1. an electric energy monitoring box; 2. monitoring a display screen; 3. a lead output pipe; 4. a wiring terminal; 5. a connecting mechanism; 6. a lifter mounting block; 7. connecting a lifting rod; 8. a lifting mounting block; 9. locking screws; 10. a fixed collar; 11. a liquid monitoring tube; 12. a flow counting box; 13. connecting a lead; 14. butt-joint pipes; 15. a flow monitoring mechanism; 16. a first buckle; 17. a second buckle; 18. a helical rotor.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.
As shown in fig. 1-3, an integrated energy monitoring device based on internet management and control comprises an electric energy monitoring box 1, wherein a monitoring display screen 2 is installed at the upper end of the electric energy monitoring box 1, a wire output tube 3 is installed at one side of the electric energy monitoring box 1, a wiring terminal 4 is installed at the other side of the electric energy monitoring box 1, a connecting mechanism 5 is installed at the bottom of the electric energy monitoring box 1, a liquid monitoring tube 11 is installed at the bottom of the connecting mechanism 5, a flow counting box 12 is installed at the upper end of the liquid monitoring tube 11, a connecting wire 13 is installed between the electric energy monitoring box 1 and the flow counting box 12, butt-joint tubes 14 are installed at two sides of the liquid monitoring tube 11, and a flow monitoring mechanism 15 is installed inside the liquid monitoring tube 11;
the connecting mechanism 5 comprises a lifting rod mounting block 6, a connecting lifting rod 7, a lifting mounting block 8, a locking screw 9 and a fixing lantern ring 10, the lifting rod mounting block 6 is mounted at the front end and the rear end of the electric energy monitoring box 1, the connecting lifting rod 7 is mounted at the lower end of the lifting rod mounting block 6, the lifting mounting block 8 is mounted at the outer side of the connecting lifting rod 7, the locking screw 9 is mounted at the front end and the rear end of the lifting mounting block 8 in a threaded manner, and the fixing lantern ring 10 is mounted at the lower end of the lifting mounting block 8; the connecting lifting rod 7 penetrates through the lifting mounting block 8, the locking screws 9 penetrate through the lifting mounting block 8 and are connected with the connecting lifting rod 7, the number of the lifting mounting block 8 and the fixed lantern ring 10 is two, and the liquid monitoring pipe 11 is mounted on the inner side of the locking screws 9; the flow monitoring mechanism 15 comprises a first buckle 16, a second buckle 17 and a spiral rotor 18, the first buckle 16 and the second buckle 17 are arranged on the inner surface of the liquid monitoring pipe 11, the first buckle 16 is positioned above the second buckle 17, and the spiral rotor 18 is rotatably arranged in the middle of the first buckle 16 and the second buckle 17; the spiral rotor 18 is designed to be a cross spiral magnet structure, the spiral rotor 18 is positioned below the flow counting box 12, and the butt joint pipe 14 is inserted into the liquid monitoring pipe 11 and is connected with the first buckle 16 and the second buckle 17; the electric energy monitoring box 1 is located above the flow counting box 12, and the electric energy monitoring box 1 is electrically connected with the flow counting box 12 through a connecting wire 13.
It should be noted that, the utility model is a comprehensive energy monitoring device based on internet management and control, when in use, the electric energy monitoring box 1 forms a part of electric energy monitoring, the electric energy monitoring box is connected to an electric energy circuit through a wiring terminal 4, a lead output pipe 3 leads out the circuit, a monitoring display screen 2 is used for displaying monitored electric energy, a liquid monitoring pipe 11 is connected to a liquid pipeline through a butt joint pipe 14, after liquid enters the liquid monitoring pipe 11, a spiral rotor 18 is driven to rotate, electromagnetic induction with a flow counting box 12 is generated during rotation through the magnet material of the spiral rotor 18, flowing liquid is measured and monitored, and the flow counting box 12 is in circuit connection with the electric energy monitoring box 1 through a connection lead 13.
According to the utility model, by arranging the connecting mechanism 5, when the electric energy monitoring box 1 and the liquid monitoring pipe 11 are installed and used, the liquid monitoring pipe 11 is installed below the lifting installation block 8 through the fixing sleeve ring 10, the electric energy monitoring box 1 is provided with the connecting lifting rod 7 through the lifting rod installation block 6, the connecting lifting rod 7 plays a role of connecting with the lifting installation block 8, the electric energy monitoring box 1 and the liquid monitoring pipe 11 are connected, the connecting lifting rod 7 can stretch out and draw back in the lifting installation block 8 to adjust the connection distance, and the locking screw 9 is tightened to fix after adjustment, so that the distance between the electric energy monitoring box 1 and the liquid monitoring pipe 11 is adjusted, the device can simultaneously carry out two kinds of monitoring and installation and use, and the installation and fixation of different positions of the device are facilitated; through setting up flow monitoring mechanism 15, liquid monitoring pipe 11 carries out liquid flow monitoring time measuring, connect the fluid pipeline through butt joint pipe 14, then liquid gets into in the liquid monitoring pipe 11, structure through 18 spiral cross of screw rotor, it is rotatory to drive screw rotor 18 between first buckle 16 and the connection of second buckle 17, magnet material through screw rotor 18, produce the electromagnetic induction with flow count box 12 when rotatory, measure the monitoring to the liquid that flows, screw rotor 18's spiral cross structure has reduced the volume structure of rotor, and the speed that liquid flows has been accelerated to the mode of perpendicular installation, can more unblocked quick carry out flow monitoring to liquid and use.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.
Claims (6)
1. The utility model provides a comprehensive energy monitoring devices based on internet management and control which characterized in that: including electric energy monitoring box (1), monitoring display screen (2) are installed to the upper end of electric energy monitoring box (1), wire output tube (3) are installed to one side of electric energy monitoring box (1), binding post (4) are installed to another time of electric energy monitoring box (1), coupling mechanism (5) are installed to the bottom of electric energy monitoring box (1), liquid monitoring pipe (11) are installed to the bottom of coupling mechanism (5), flow count box (12) are installed to the upper end of liquid monitoring pipe (11), install connecting wire (13) between electric energy monitoring box (1) and flow count box (12), butt joint pipe (14) are all installed to the both sides of liquid monitoring pipe (11), the internally mounted of liquid monitoring pipe (11) has flow monitoring mechanism (15).
2. The integrated energy monitoring device based on internet management and control according to claim 1, characterized in that: coupling mechanism (5) are including lifter installation piece (6), connection lifter (7), lift installation piece (8), locking screw (9) and fixed lantern ring (10), front end and rear end at electric energy monitoring box (1) are installed to lifter installation piece (6), connect lifter (7) and install the lower extreme at lifter installation piece (6), the outside at connecting lifter (7) is installed in lift installation piece (8), locking screw (9) threaded mounting is at the front end and the rear end of lift installation piece (8), the lower extreme at lift installation piece (8) is installed in fixed lantern ring (10).
3. The integrated energy monitoring device based on internet management and control as claimed in claim 2, characterized in that: connect lifter (7) and run through lift installation piece (8), locking screw (9) run through lift installation piece (8) and are connected lifter (7), the quantity of lift installation piece (8) and fixed lantern ring (10) is two, the inboard at locking screw (9) is installed in liquid monitoring pipe (11).
4. The integrated energy monitoring device based on internet management and control according to claim 1, characterized in that: the flow monitoring mechanism (15) comprises a first buckle (16), a second buckle (17) and a spiral rotor (18), the first buckle (16) and the second buckle (17) are installed on the inner surface of the liquid monitoring pipe (11), the first buckle (16) is located above the second buckle (17), and the spiral rotor (18) is installed in the middle of the first buckle (16) and the second buckle (17) in a rotating mode.
5. The integrated energy monitoring device based on internet management and control as claimed in claim 4, wherein: the spiral rotor (18) is designed to be a cross spiral magnet structure, the spiral rotor (18) is located below the flow counting box (12), and the butt joint pipe (14) is inserted into the liquid monitoring pipe (11) and is connected with the first buckle (16) and the second buckle (17).
6. The integrated energy monitoring device based on internet management and control according to claim 1, characterized in that: the electric energy monitoring box (1) is located above the flow counting box (12), and the electric energy monitoring box (1) is electrically connected with the flow counting box (12) through a connecting wire (13).
Priority Applications (1)
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CN202121427658.2U CN215493817U (en) | 2021-06-25 | 2021-06-25 | Comprehensive energy monitoring device based on internet management and control |
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CN202121427658.2U CN215493817U (en) | 2021-06-25 | 2021-06-25 | Comprehensive energy monitoring device based on internet management and control |
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CN215493817U true CN215493817U (en) | 2022-01-11 |
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- 2021-06-25 CN CN202121427658.2U patent/CN215493817U/en active Active
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