CN111145040A

CN111145040A - Software and hardware integrated energy consumption equipment monitoring platform based on Internet of things

Info

Publication number: CN111145040A
Application number: CN201911314185.2A
Authority: CN
Inventors: 徐盛; 温积群; 王绍荃
Original assignee: Wenzhou Science And Technology Branch Of Zhejiang Tusheng Transmission And Transfer Engineering Co ltd
Current assignee: Wenzhou Science And Technology Branch Of Zhejiang Tusheng Transmission And Transfer Engineering Co ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-05-12
Anticipated expiration: 2039-12-18
Also published as: CN111145040B

Abstract

The invention discloses a software and hardware integrated energy consumption equipment monitoring platform based on the Internet of things, which comprises an energy consumption analysis platform, a server platform and a detection terminal in communication connection with the server platform, wherein the energy consumption analysis platform and the server platform are detachably installed through a connecting assembly, the energy consumption analysis platform comprises an energy efficiency analysis terminal and an electric energy efficiency data system arranged in the energy efficiency analysis terminal, and the server platform is used for summarizing energy consumption data acquired by the detection terminal; the connecting assembly comprises a driving assembly, a supporting assembly and an expansion assembly; drive assembly and inflation subassembly are all installed on the supporting component, and the supporting component is used for installing drive assembly and inflation subassembly on efficiency analysis terminal, drive assembly and inflation subassembly linkage to drive the inflation of inflation subassembly, carry out detachable installation with server platform and efficiency analysis terminal. The invention can make the monitoring platform more convenient to use and has more installation modes for selection.

Description

Software and hardware integrated energy consumption equipment monitoring platform based on Internet of things

Technical Field

The invention relates to the technical field of energy management, in particular to a software and hardware integrated energy consumption equipment monitoring platform based on the Internet of things.

Background

The energy internet is a new state of deep integration of energy industry and information technology, and is an important means for promoting energy revolution and electric power marketization. The method comprises the steps of establishing a source management and control and service cloud platform serving the energy Internet, communicating information flows related to interconnection and energy, integrating and allocating various available resources, reducing energy consumption cost and improving energy consumption quality on the basis of ensuring energy consumption safety and reliability, and becomes a main mode for developing the energy Internet.

In order to reduce energy consumption, firstly, the energy consumption data of an enterprise must be accurately counted, so that deviation of the energy consumption data caused by human factors is avoided. At present, due to various reasons, most of common small and medium-sized enterprises cannot pay sufficient attention to energy monitoring and analysis, energy consumption data statistics is often carried out in a manual mode, and the real-time and informatization degree is low.

And large-scale enterprise energy consumption equipment is many kinds, and the energy consumption system is complicated, if only to the total energy consumption of enterprise carry out statistics, can not reflect the actual energy consumption condition of each energy consumption equipment well. Therefore, energy consumption equipment of the enterprise must be monitored in real time, and energy consumption data must be analyzed in detail.

Through the mode of traditional monitoring platform cooperation server, can lead to the use inconvenience in the use occasion of difference, often need to make a round trip the computer lab run.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a software and hardware integrated energy consumption equipment monitoring platform based on the Internet of things, which is more convenient to use and has more installation modes for selection.

In order to achieve the purpose, the invention provides the following technical scheme: a software and hardware integrated energy consumption equipment monitoring platform based on the Internet of things comprises an energy consumption analysis platform, a server platform and a detection terminal in communication connection with the server platform, wherein the energy consumption analysis platform and the server platform are detachably mounted through a connecting assembly, the energy consumption analysis platform comprises an energy efficiency analysis terminal and an electric energy efficiency data system arranged in the energy efficiency analysis terminal, and the server platform is used for summarizing energy consumption data collected by the detection terminal; the connection assembly includes a drive assembly, a support assembly, and an expansion assembly; the server platform comprises a driving assembly, an expansion assembly, an energy efficiency analysis terminal and a supporting assembly, wherein the driving assembly and the expansion assembly are arranged on the supporting assembly, the supporting assembly is used for installing the driving assembly and the expansion assembly on the energy efficiency analysis terminal, the driving assembly is linked with the expansion assembly to drive the expansion assembly to expand, and the server platform and the energy efficiency analysis terminal are detachably installed.

As a further improvement of the invention, the expansion assembly comprises a plurality of clamping strips and a connecting piece for connecting the driving assembly and the clamping strips, the driving assembly comprises a connecting seat for being hinged with the connecting piece, a rotating shaft rotationally connected with the connecting seat, and a driving piece for driving the rotating shaft to rotate, the supporting assembly comprises an assembly base and a fixing piece for being fixed with the energy efficiency analysis terminal, the plurality of clamping strips are uniformly distributed on the assembly base and are hinged with the assembly base, the rotating shaft is in threaded connection with the fixing piece, when the rotating shaft rotates, the rotating shaft generates displacement and drives the clamping strips to be opened or closed, and when the clamping strips are opened in the server platform, the energy consumption analysis platform and the server platform are detachably mounted.

As a further improvement of the invention, the connecting seat is provided with an articulated piece, one end of the articulated piece is fixedly connected with the connecting seat, and the other end of the articulated piece is articulated with the connecting piece; an infrared distance detection device is arranged on the hinged piece to detect the distance between the hinged piece and the assembling base.

As a further improvement of the invention, the other end of the rotating shaft opposite to the connecting seat is polygonal, the driving member comprises an L-shaped or Z-shaped handle, one end of the handle is used for being driven by a hand, the other end of the handle is provided with a groove corresponding to the polygon on the rotating shaft, and when the groove is sleeved at one end of the polygon of the rotating shaft and the handle is rotated by taking the rotating shaft as an axis, the rotating shaft rotates.

As a further improvement of the invention, the number of the clamping strips is three, and an included angle of 120 degrees is formed between every two clamping strips; the quantity and the position of articulated elements all correspond with the joint strip.

As a further improvement of the invention, the fixing piece is provided with a pair of positioning plates, and the two positioning plates are symmetrical on the positioning piece about the central line where the rotating shaft is located; the locating plate comprises two vertical plates which are parallel to each other and a tilting plate which is connected with the two vertical plates, wherein the distance between one vertical plate and the central line of the locating piece on which the rotating shaft is located is larger than that between the other vertical plate.

As a further improvement of the present invention, the server platform is provided with a communication interface, an output interface for transmitting data, and an antenna detachably connected to the communication interface; the communication interface comprises three terminals which form a three-jack socket structure; one of the terminals is connected to the communication module in the server platform, and the other two terminals are grounded in the server platform; the antenna comprises a jack, an antenna body and a shielding layer wrapped on the outer side of the antenna body, the jack is of a three-pin plug structure corresponding to the communication interface, the jack corresponds to two grounded wiring ends and is electrically connected with the shielding layer, and the jack corresponds to the wiring ends connected with the communication module and is electrically connected with the antenna body.

As a further improvement of the present invention, the output interface includes a housing, a circuit board and a plurality of magnetic columns, both of which are disposed in the housing and electrically connected to the communication module, the plurality of magnetic columns being sequentially arranged according to a positive-negative-positive-negative polarity, fixedly connected to the housing, and electrically connected to the circuit board; the mobile terminal is matched with the output interface and is provided with a plurality of corresponding magnetic columns which are arranged in a reverse-normal-reverse-normal way, are fixed on the mobile terminal and attract the magnetic columns on the output interface correspondingly; the plurality of magnetic columns corresponding to each other are respectively connected with a power supply, a grounding terminal, a first data terminal and a second data terminal on the circuit board of the output interface and in the mobile terminal.

As a further improvement of the invention, one end of the magnetic column for attraction is in a flat disc shape, and the column part is buried in the shell or the mobile terminal.

As a further improvement of the present invention, the output interface includes a calibration component, the calibration component includes a plurality of photosensitive elements disposed on the output interface and a plurality of light emitting diodes disposed on the mobile terminal, the number of the photosensitive elements corresponds to the number of the light emitting diodes, and the light emitting diodes are spaced from the magnetic columns and are in the same line with the magnetic columns; the adjacent photosensitive elements are blocked by magnetic columns; the number of the photosensitive elements and the number of the light-emitting diodes are not more than 5, and the photosensitive elements and the light-emitting diodes are corresponding in position; the light-sensitive elements are connected with the circuit board to receive light-sensitive signals, and the anodes of the light-emitting diodes are connected with the magnetic columns connected with the power supply to obtain the power supply; the circuit board also transmits the photosensitive signal to the mobile terminal through the magnetic column.

The energy consumption analysis platform has the advantages that the detection terminal is connected to each electric device, the energy consumption data of the electric devices are collected and sent to the server platform in a wireless communication or wired communication mode, the server platform receives and stores all the energy consumption data in a classified mode, different device numbers and corresponding energy consumption data are stored, energy efficiency analysis is carried out by utilizing the existing electric energy efficiency data system through the collected energy consumption data in the energy consumption analysis platform, and real-time monitoring on the energy consumption data can be achieved at the moment. The server platform is detachably connected with the energy efficiency analysis terminal through the connecting piece, the mode is convenient for a user to use in different occasions, the energy efficiency analysis terminal and the server platform are directly assembled, integration can be achieved, and the server platform is convenient to carry and use. This connected mode passes through the inflation of drive assembly drive expansion assembly and then reaches the assembly effect, and it has more firm effect.

Drawings

FIG. 1 is a schematic diagram of a system framework of the present invention;

FIG. 2 is a schematic diagram of the assembly of a server platform and an energy efficiency analysis terminal according to the present invention;

FIG. 3 is a schematic perspective view of a connecting assembly of the present invention;

FIG. 4 is a schematic front view of the connecting assembly of the present invention;

FIG. 5 is a side view of the connecting assembly of the present invention;

FIG. 6 is a schematic diagram of a communication interface structure according to the present invention;

FIG. 7 is a schematic diagram of an output interface structure according to the present invention;

fig. 8 is an enlarged schematic view of the hinge structure of the present invention.

Reference numerals: 1. an energy consumption analysis platform; 11. an energy efficiency analysis terminal; 12. a power efficiency data system; 2. a server platform; 3. detecting a terminal; 4. a connecting assembly; 41. a drive assembly; 411. a connecting seat; 412. a rotating shaft; 42. a support assembly; 421. assembling a base; 422. a fixing member; 43. an expansion assembly; 431. a clamping strip; 432. a connecting member; 5. an articulation member; 51. an infrared distance detection device; 6. positioning a plate; 61. a vertical plate; 62. an inclined plate; 71. a communication interface; 72. an antenna; 8. an output interface; 81. a housing; 82. a magnetic column; 83. a circuit board; 84. a mobile terminal; 9. a verification component; 91. a photosensitive element; 92. a light emitting diode.

Detailed Description

The invention will be further described in detail with reference to the following examples, which are given in the accompanying drawings.

Referring to fig. 1 to 8, the software and hardware integrated energy consumption device monitoring platform based on the internet of things of the embodiment includes an energy consumption analysis platform 1, a server platform 2 and a detection terminal 3 in communication connection with the server platform 2, wherein the energy consumption analysis platform 1 and the server platform 2 are detachably installed through a connection assembly 4, the energy consumption analysis platform 1 includes an energy efficiency analysis terminal 11 and an electric power energy efficiency data system 12 arranged in the energy efficiency analysis terminal 11, and the server platform 2 is used for summarizing energy consumption data acquired by the detection terminal 3; the connecting assembly 4 comprises a driving assembly 41, a supporting assembly 42 and an expansion assembly 43; the driving assembly 41 and the expansion assembly 43 are both mounted on the supporting assembly 42, the supporting assembly 42 is used for mounting the driving assembly 41 and the expansion assembly 43 on the energy efficiency analysis terminal 11, the driving assembly 41 and the expansion assembly 43 are linked to drive the expansion assembly 43 to expand, the server platform 2 and the energy efficiency analysis terminal 11 are detachably mounted, and the expansion assembly is different from a traditional expansion screw, and the expansion assembly has the effect of being reusable.

The set energy consumption analysis platform 1 can be a computer terminal, and the server platform 2 can be server equipment for storing a large amount of data; the detection terminal 3 is connected to each electric device, energy consumption data of the electric devices are collected and sent to the server platform 2 in a wireless communication or wired communication mode, the server platform 2 receives and stores all the energy consumption data in a classified mode, different device numbers and corresponding energy consumption data are stored, energy efficiency analysis is carried out by utilizing an existing electric energy efficiency data system 12 through the collected energy consumption data in the energy consumption analysis platform 1, the energy efficiency analysis terminal 11 is a carrier of the system, and the energy efficiency analysis terminal 11 can adopt a computer. The server platform 2 is detachably connected with the energy efficiency analysis terminal 11 through the connecting piece 432, the mode is convenient for users to use in different occasions, the energy efficiency analysis terminal 11 and the server platform 2 are directly assembled, integration can be achieved, and the carrying and the use are both more convenient. This connection mode drives the inflation subassembly 43 through drive assembly 41 and expands and then reaches the assembly effect, and it has more firm effect.

The expansion assembly 43 comprises a plurality of clamping strips 431, a connecting piece 432 for connecting the driving assembly 41 and the clamping strips 431, the driving assembly 41 comprises a connecting seat 411 hinged to the connecting piece 432, a rotating shaft 412 rotationally connected with the connecting seat 411 and a driving piece for driving the rotating shaft 412 to rotate, the supporting assembly 42 comprises an assembling base 421 and a fixing piece 422 fixed to the energy efficiency analysis terminal 11, the clamping strips 431 are uniformly distributed on the assembling base 421 and hinged to the assembling base 421, the rotating shaft 412 is in threaded connection with the fixing piece 422, when the rotating shaft 412 rotates, the rotating shaft 412 generates displacement and drives the clamping strips 431 to open or close, and when the clamping strips 431 open in the server platform 2, the energy consumption analysis platform 1 and the server platform 2 are detachably mounted.

When inflation subassembly 43 expands, expand through the mode of the outside upset of joint strip 431, the joint strip 431 of the outside upset this moment is in the recess that the inflation hooked in server platform 2, and a plurality of joint strips 431 all embed into corresponding recess this moment, and then reach stable fixed effect. Specifically, when pivot 412 rotates, because pivot 412 threaded connection is on mounting 422, pivot 412 can produce the displacement on mounting 422, and then drive connecting seat 411 and remove, connecting seat 411's removal can drive connecting piece 432 and produce the displacement, connecting piece 432 then pivot 412 removes the ejecting outside upset of joint strip 431 this moment, and then let in the recess of joint strip 431 embedding server platform 2, wherein the setting of assembly base 421 can let joint strip 431 have better pivot. The connection between the rotating shaft 412 and the connecting seat 411 is realized by a bearing fixing method, and the rotating shaft 412 and the connecting seat 411 have a relative fixing function and can rotate at the same time.

Furthermore, a hinge element 5 is arranged on the connecting seat 411, one end of the hinge element 5 is fixedly connected with the connecting seat 411, and the other end is hinged with the connecting piece 432; the hinge 5 is provided with an infrared distance detecting device 51 to detect a distance between the hinge 5 and the mounting base 421.

The setting of articulated elements 5 makes things convenient for connecting piece 432 rather than articulated more, detect through the infrared distance on the articulated elements 5, can detect the distance between articulated elements 5 and the assembly base 421, when pivot 412 produces the displacement after rotating, connecting seat 411 also can remove this moment and take articulated elements 5 to move together, and then change the distance that infrared distance detection device 51 detected, as the infrared distance detection device 51 that shows in the figure, when the distance that infrared distance detection device 51 detected no longer changes, for the detection range of infrared distance detection device 51 has not been on the assembly base 421, change the distance between detection articulated elements 5 and the pivot 412 into, ignore the slight distance change that detects the screw thread on spring and the pivot 412 this moment, for the distance that is roughly unchangeable. At this time, it means that the expansion degree has reached the requirement, and the infrared distance detection device 51 can be fixed by means of double-sided adhesive, so that the device is convenient to reuse.

Further, the other end of the rotating shaft 412 opposite to the connecting seat 411 is polygonal, the driving member includes an L-shaped or Z-shaped handle, one end of the handle is used for being driven by a hand, and the other end of the handle is provided with a groove corresponding to the polygon on the rotating shaft 412, when the groove is sleeved at one end of the polygon of the rotating shaft 412 and the handle is rotated by taking the rotating shaft 412 as an axis, the rotating shaft 412 rotates.

Be used for driven one end to be the polygon on the pivot 412, be convenient for to cup joint the handle this moment and drive, this handle can adopt L shape or Z shape, and the crank of oil recovery machine is referred to its specific using-way, and this handle can reuse, drives a plurality of pivots 412 to assemble through this handle, mean can dismantle the handle after the assembly is accomplished, make the plane of assembly more level and more smooth.

The number of the clamping strips 431 is three, and an included angle of 120 degrees is formed between every two clamping strips; the number and the positions of the hinge pieces 5 correspond to the clamping strips 431.

The number of the hinge pieces 5 and the number of the clamping strips 431 are three, so that the cost can be saved under the condition of providing a stable assembling effect. The angle between every two of the clamping strips 431 is 120 degrees, so that the clamping strips have stronger stability and are uniformly distributed and fixed.

The fixing piece 422 is provided with a pair of positioning plates 6, and the two positioning plates 6 are symmetrical on the positioning piece about the central line where the rotating shaft 412 is located; the positioning plate 6 comprises two vertical plates 61 parallel to each other and an inclined plate 62 connecting the two vertical plates 61, wherein the distance between one vertical plate 61 and the center line of the positioning part on which the rotating shaft 412 is located is larger than that between the other vertical plate 61.

When this mounting 422 needs to be assembled, can conveniently be used for distinguishing the angle of assembly through locating plate 6, under fixed assembly angle, can let joint strip 431's assembly effect better, aim at in the recess in server platform 2 more easily, and install mounting 422 on efficiency analysis terminal 11 more easily after the location, through set up the groove that corresponds this locating plate 6 shape on efficiency analysis terminal 11, can let this locating plate 6 insert and fix a position in this groove, have stronger assembly effect. As shown in the figure, the vertical plate 61 can be supported by the inclined plate 62, and the pressure-resistant effect can be enhanced.

As a modified specific embodiment, the server platform 2 is provided with a communication interface 71, an output interface 8 for transmitting data, and an antenna 72 detachably connected to the communication interface 71; the communication interface 71 comprises three terminals of the communication interface 71, which form a three-jack socket structure; one of the terminals is connected to the communication module in the server platform 2, and the remaining two terminals are grounded in the server platform 2; the antenna 72 comprises a jack, an antenna 72 body and a shielding layer wrapped on the outer side of the antenna 72 body, the jack is of a three-pin plug structure corresponding to the communication interface 71, the jack corresponds to two grounded wiring terminals and is electrically connected with the shielding layer, and the jack corresponds to the wiring terminal connected with the communication module and is electrically connected with the antenna 72 body.

In different use modes, the requirements for receiving signals by the server platform 2 are different, and the interference caused by poor arrangement of communication lines or wireless signal strength may be received, at this time, the booster antenna 72 needs to be used, and if the booster antenna 72 is installed inside the server platform 2 in advance, the cost and the volume are increased under the initial condition. The three-hole socket is matched with the three-pin plug in a simple, rapid and stable plugging mode, and is suitable for all people to operate. The structure of the three-hole socket and the three-pin plug can directly adopt the design of the plug board and the plug of the existing design, and unnecessary design cost is reduced.

The output interface 8 comprises a housing 81, a circuit board 83 and a plurality of magnetic columns 82, wherein the circuit board 83 and the magnetic columns 82 are both arranged in the housing 81 and electrically connected with the communication module, and the magnetic columns 82 are sequentially arranged according to the positive-negative-positive-negative polarity and fixedly connected to the housing 81 and electrically connected with the circuit board 83; a mobile terminal 84 is further arranged in cooperation with the output interface 8, and a plurality of corresponding magnetic columns 82 are arranged on the mobile terminal 84, arranged in a reverse-forward-reverse-forward manner, fixed on the mobile terminal 84, and attracted correspondingly to the magnetic columns 82 on the output interface 8; a plurality of magnetic poles 82 corresponding to each other are respectively connected to the power supply, the ground, the first data terminal and the second data terminal on the circuit board 83 of the output interface 8 and within the mobile terminal 84.

When the user needs to manually receive data through the mobile terminal 84, the user attracts the mobile terminal 84 through the magnetic pole 82 and the magnetic pole 82 on the output interface 8, and when the magnetic pole 82 attracts and attaches to each other, the mobile terminal 84 and the output interface 8 communicate with each other. The connection mode does not need to be plugged, the connection and extraction actions are quick and effective, the interface is not damaged quickly due to repeated plugging and extraction actions when data are received by a plurality of acquisition terminals like the existing data port plugging mode, the magnetic columns 82 of the output interface 8 are arranged in a reverse-forward-reverse-forward mode through forward-reverse-forward, the magnetic columns 82 on the mobile terminal 84 are automatically aligned to the corresponding magnetic columns 82 according to a reverse-forward-reverse-forward mode, and when the magnetic columns and the mobile terminal are close to each other, due to the principle that opposite polarities attract each other and same polarities repel each other, the connection of a user is further accelerated, and the connection is very simple and accurate.

In a further arrangement, the ends of the magnetic columns 82 for attracting each other are flat and disc-shaped, and the column-shaped portions are embedded in the housing 81 or the mobile terminal 84.

The flat disk shape allows greater suction strength and a tighter coupling, and the cylindrical portion is buried in the housing 81 or the mobile terminal 84, which improves fixing strength.

Further, the output interface 8 includes a verification assembly 9, the verification assembly 9 includes a plurality of light-sensitive elements 91 disposed on the output interface 8 and a plurality of light-emitting diodes 92 disposed on the mobile terminal 84, the number of the light-sensitive elements 91 corresponds to the number of the light-emitting diodes 92, and the light-emitting diodes 92 are spaced from the magnetic columns 82 and are aligned with the magnetic columns 82; the adjacent photosensitive elements 91 are blocked by the magnetic columns 82; the number of the photosensitive elements 91 and the light emitting diodes 92 is not more than 5, and the positions of the photosensitive elements and the light emitting diodes correspond to each other; the multiple photosensitive elements 91 are connected with the circuit board 83 to receive photosensitive signals, and the anodes of the multiple light emitting diodes 92 are connected with the magnetic columns 82 connected with a power supply to obtain the power supply; the circuit board 83 also transmits the light sensing signal to the mobile terminal 84 through the magnetic post 82.

Because there are only four sets of magnetic columns 82, at most five photosensitive elements 91 and light emitting diodes 92 can be spaced by the magnetic columns 82, the photosensitive elements 91 and the light emitting diodes 92 can be isolated by the magnetic columns 82, and the light emitted by the same light emitting diode 92 is prevented from being received by two photosensitive elements 91, thereby affecting the verification result, the verification process is that the keyboard of the mobile terminal 84 controls the corresponding light emitting diode 92 to be opened and closed for coding, for example, the coding corresponds to the serial number of the device and the serial number of the device through keyboard input, the serial number of the device is manually input, at this time, the light emitting diode 92 corresponding to the serial number emits light, the corresponding relationship is in a binary form, or in a moss code form, which can correspond to a plurality of codes, generates corresponding reactions after the photosensitive elements 91 receive optical signals, and outputs photosensitive signals to the circuit board 83, at this time, when the circuit board 83 sends data information, the received light-sensitive signal, which is a code generated by the plurality of light-sensitive elements 91, is also sent to the mobile terminal 84, so that it can be detected whether the data transmission is accurate. The code is used for calibration and also as a switch for starting the data transmission of the data concentration end so as to control the data transmission between the acquisition terminal and the mobile terminal 84. The photosensitive element 91 may be a photo resistor, a photodiode, a photo transistor, or the like.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The software and hardware integrated energy consumption equipment monitoring platform based on the Internet of things is characterized by comprising an energy consumption analysis platform (1), a server platform (2) and a detection terminal (3) in communication connection with the server platform (2), wherein the energy consumption analysis platform (1) and the server platform (2) are detachably mounted through a connecting assembly (4), the energy consumption analysis platform (1) comprises an energy efficiency analysis terminal (11) and an electric energy efficiency data system (12) arranged in the energy efficiency analysis terminal (11), and the server platform (2) is used for summarizing energy consumption data collected by the detection terminal (3); the connecting assembly (4) comprises a driving assembly (41), a supporting assembly (42) and an expansion assembly (43); the server platform comprises a driving assembly (41), an expansion assembly (43) and a supporting assembly (42), wherein the supporting assembly (42) is used for mounting the driving assembly (41) and the expansion assembly (43) on the energy efficiency analysis terminal (11), the driving assembly (41) is linked with the expansion assembly (43) to drive the expansion assembly (43) to expand, and the server platform (2) and the energy efficiency analysis terminal (11) are detachably mounted.

2. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that the expansion assembly (43) comprises a plurality of clamping strips (431) and a connecting piece (432) for connecting the driving assembly (41) and the clamping strips (431), the driving assembly (41) comprises a connecting seat (411) hinged to the connecting piece (432), a rotating shaft (412) rotatably connected to the connecting seat (411) and a driving piece for driving the rotating shaft (412) to rotate, the supporting assembly (42) comprises an assembling base (421) and a fixing piece (422) fixed to the energy efficiency analysis terminal (11), the clamping strips (431) are uniformly distributed on the assembling base (421) and hinged to the assembling base (421), the rotating shaft (412) is in threaded connection with the fixing piece (422), and when the rotating shaft (412) rotates, the rotating shaft (412) is displaced, and the clamping bar (431) is driven to open or close, and when the clamping bar (431) opens in the server platform (2), the energy consumption analysis platform (1) and the server platform (2) are detachably mounted.

3. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that a hinge piece (5) is arranged on the connecting seat (411), one end of the hinge piece (5) is fixedly connected with the connecting seat (411), and the other end of the hinge piece is hinged with the connecting piece (432); the hinge piece (5) is provided with an infrared distance detection device (51) to detect the distance between the hinge piece (5) and the assembly base (421).

4. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that the other end of the rotating shaft (412) opposite to the connecting seat (411) is polygonal, the driving piece comprises an L-shaped or Z-shaped handle, one end of the handle is used for being driven by a hand, the other end of the handle is provided with a groove corresponding to the polygon on the rotating shaft (412), and when the groove is sleeved at one end of the polygon of the rotating shaft (412) and the handle is rotated by taking the rotating shaft (412) as an axis, the rotating shaft (412) rotates.

5. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform as claimed in claim 4, wherein the number of the clamping strips (431) is three, and an included angle of 120 degrees is formed between every two clamping strips; the quantity and the position of the hinge pieces (5) correspond to the clamping strips (431).

6. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that the fixing piece (422) is provided with a pair of positioning plates (6), and the two positioning plates (6) are symmetrical on the positioning piece about the central line where the rotating shaft (412) is located; the positioning plate (6) comprises two vertical plates (61) which are parallel to each other and an inclined plate (62) which is connected with the two vertical plates (61), wherein the distance between one vertical plate (61) and the center line of the positioning part on which the rotating shaft (412) is positioned is larger than that between the other vertical plate (61).

7. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that a communication interface (71), an output interface (8) for data transmission and an antenna (72) detachably connected with the communication interface (71) are arranged on the server platform (2); the communication interface (71) comprises three terminals of which the communication interface (71) comprises a three-jack socket structure; one of the terminals is connected to the communication module in the server platform (2), and the remaining two terminals are grounded in the server platform (2); antenna (72) are including bayonet socket, antenna (72) body and the shielding layer of parcel in antenna (72) body outside, the bayonet socket is the three-pin plug structure that corresponds with communication interface (71), and this bayonet socket corresponds two earthed wiring terminal and is connected with the shielding layer electricity, and this bayonet socket corresponds the wiring terminal of connecting communication module and is connected with antenna (72) body electricity.

8. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that the output interface (8) comprises a shell (81), a circuit board (83) and a plurality of magnetic columns (82), wherein the circuit board (83) and the magnetic columns (82) are arranged in the shell (81) and electrically connected with the communication module, the magnetic columns (82) are sequentially arranged in a positive-negative-positive-negative polarity manner, fixedly connected to the shell (81) and electrically connected with the circuit board (83); a mobile terminal (84) is also arranged in cooperation with the output interface (8), a plurality of corresponding magnetic columns (82) are arranged on the mobile terminal (84), are arranged in a reverse-forward-reverse-forward manner, are fixed on the mobile terminal (84), and are attracted correspondingly to the magnetic columns (82) on the output interface (8); a plurality of magnetic columns (82) corresponding to each other are respectively connected with a power supply, a ground, a first data terminal and a second data terminal on a circuit board (83) of the output interface (8) and in the mobile terminal (84).

9. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that one ends of the magnetic columns (82) used for attracting are flat and disc-shaped, and the column-shaped parts are buried in a shell (81) or a mobile terminal (84).

10. The Internet of things-based software and hardware integrated energy consumption equipment monitoring platform is characterized in that the output interface (8) comprises a checking component (9), the checking component (9) comprises a plurality of photosensitive elements (91) arranged on the output interface (8) and a plurality of light emitting diodes (92) arranged on the mobile terminal (84), the number of the photosensitive elements (91) corresponds to the number of the light emitting diodes (92), and the light emitting diodes (92) are arranged at intervals with the magnetic columns (82) and are in the same straight line with the magnetic columns (82); the adjacent photosensitive elements (91) are blocked by magnetic columns (82); the number of the photosensitive elements (91) and the number of the light-emitting diodes (92) are not more than 5, and the positions of the photosensitive elements and the positions of the light-emitting diodes correspond to each other; the photosensitive elements (91) are connected with a circuit board (83) to receive photosensitive signals, and the anodes of the light-emitting diodes (92) are connected with a magnetic column (82) connected with a power supply to obtain the power supply; the circuit board (83) also transmits the photosensitive signal to the mobile terminal (84) through the magnetic column (82).