CN111145040B - Software and hardware integrated energy consumption equipment monitoring platform based on Internet of things - Google Patents

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 component, the energy consumption analysis platform comprises an energy efficiency analysis terminal and an electric power 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 component comprises a driving component, a supporting component and an expansion component; the driving assembly and the expansion assembly are both installed on the supporting assembly, the supporting assembly is used for installing the driving assembly and the expansion assembly on the energy efficiency analysis terminal, and the driving assembly is linked with the expansion assembly to drive the expansion assembly to expand, so that the server platform and the energy efficiency analysis terminal are detachably installed. 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 fusion of the energy industry and the information technology, and is an important means for pushing the energy revolution and the electric power marketization. The method comprises the steps of establishing a source management and control and service cloud platform serving the energy Internet, communicating and interconnecting information flows related to the energy, integrating and allocating various available resources, reducing energy cost and improving energy quality on the basis of guaranteeing energy use safety and reliability, and becoming a main mode for developing the energy Internet.

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

The large-scale enterprises have various energy consumption equipment types and complex energy consumption systems, and if the statistics is only carried out on the total energy consumption of the enterprises, the actual energy consumption situation of each energy consumption equipment cannot be reflected well. Therefore, the energy consumption equipment of the enterprise must be monitored in real time, and the energy consumption data must be analyzed in detail.

The traditional monitoring platform is matched with the server, so that inconvenience in use can be caused in different use occasions, and the user needs to run back and forth in a machine room from time to time.

Disclosure of Invention

Aiming at the defects of 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 can be used more conveniently and has more installation modes for selection.

In order to achieve the above purpose, the present invention provides the following technical solutions: the integrated software and hardware 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 installed through a connecting component, the energy consumption analysis platform comprises an energy efficiency analysis terminal and an electric power 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; the driving assembly and the expansion assembly are both installed on the supporting assembly, the supporting assembly is used for installing the driving assembly and the expansion assembly on the energy efficiency analysis terminal, and the driving assembly and the expansion assembly are linked to drive the expansion assembly to expand, so that 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, a connecting piece for connecting the driving assembly and the clamping strips, the driving assembly comprises a connecting seat hinged with the connecting piece, a rotating shaft rotatably 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 fixing an energy efficiency analysis terminal, the clamping strips are uniformly distributed on the assembly base and 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 open or close, and when the clamping strips open in the server platform, the energy consumption analysis platform and the server platform are detachably installed.

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

As a further improvement of the invention, the other end of the rotating shaft opposite to the connecting seat is polygonal, the driving piece comprises an L-shaped or Z-shaped handle, one end of the handle is used for driving a hand, the other end of the handle is provided with a groove corresponding to the polygonal shape on the rotating shaft, and when the groove is sleeved at one end of the polygonal shape of the rotating shaft and rotates the handle by taking the rotating shaft as the 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 number and the positions of the hinge parts correspond to the clamping strips.

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 positioned; the locating plate comprises two mutually parallel vertical plates and an inclined plate connected with the two vertical plates, wherein the distance between one vertical plate and the central line of the rotating shaft on the locating piece is greater than that between the other vertical plate and the central line of the rotating shaft on the locating piece.

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

As a further improvement of the invention, the output interface comprises a shell, a circuit board and a plurality of magnetic columns, wherein the circuit board and the magnetic columns are all arranged in the shell and are electrically connected with the communication module, and the magnetic columns are sequentially arranged according to polarity positive-negative-positive-negative and are fixedly connected to the shell and are electrically connected with 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 according to the reverse-forward-reverse-forward direction and fixed on the mobile terminal and are attracted correspondingly to the magnetic columns on the output interface; the magnetic columns corresponding to each other are respectively connected with a power supply, a ground, a first data end and a second data end on the circuit board of the output interface and the mobile terminal.

As a further improvement of the invention, the ends of the magnetic columns for attraction are flat disk-shaped, and the columnar parts are buried in the housing or the mobile terminal.

As a further improvement of the invention, the output interface comprises a verification component, the verification component comprises a plurality of photosensitive elements arranged on the output interface and a plurality of light emitting diodes arranged on the mobile terminal, the number of the photosensitive elements corresponds to that of the light emitting diodes, and the light emitting diodes are arranged at intervals with the magnetic columns and are in the same straight line with the magnetic columns; adjacent photosensitive elements are blocked by magnetic columns; the number of the photosensitive elements and the light emitting diodes is not more than 5, and the positions of the photosensitive elements and the light emitting diodes are corresponding to each other; 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 photosensitive signals to the mobile terminal through the magnetic column.

The system has the advantages that the detection terminals are connected to the electric equipment, the energy consumption data of the electric equipment 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 equipment numbers and corresponding energy consumption data are stored, and the energy consumption analysis platform utilizes the collected energy consumption data to conduct energy efficiency analysis by using the existing electric energy efficiency data system, so that real-time monitoring of the energy consumption data can be achieved. The server platform and the energy efficiency analysis terminal are detachably connected through the connecting piece, the mode is convenient for a user to use in different occasions, and the energy efficiency analysis terminal and the server platform are assembled directly, so that integration can be realized, and the energy efficiency analysis terminal is more convenient to carry and use. The connecting mode drives the expansion assembly to expand through the driving assembly so as to achieve the assembly effect, and the connecting mode has a firmer effect.

Drawings

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

FIG. 2 is a schematic diagram illustrating 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 according to the present invention;

FIG. 4 is a schematic diagram of a front view of a connection assembly according to the present invention;

FIG. 5 is a schematic side view of a connection 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 energy efficiency data system; 2. a server platform; 3. detecting a terminal; 4. a connection 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 piece; 5. a hinge; 51. an infrared distance detection device; 6. a positioning plate; 61. a riser; 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 assembly; 91. a photosensitive element; 92. a light emitting diode.

Detailed Description

The invention will be further described in detail with reference to examples of embodiments shown in the drawings.

Referring to fig. 1-8, the integrated software and hardware energy consumption equipment monitoring platform based on the internet of things of the embodiment comprises 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 component 4, the energy consumption analysis platform 1 comprises 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 collecting energy consumption data collected by the detection terminal 3; the connecting assembly 4 comprises a driving assembly 41, a supporting assembly 42 and an expanding assembly 43; the driving component 41 and the expansion component 43 are both installed on the supporting component 42, the supporting component 42 is used for installing the driving component 41 and the expansion component 43 on the energy efficiency analysis terminal 11, the driving component 41 is linked with the expansion component 43 to drive the expansion component 43 to expand, the server platform 2 and the energy efficiency analysis terminal 11 are detachably installed, and the scheme has the effect of being reusable unlike the traditional expansion screw.

The energy consumption analysis platform 1 can be a computer terminal, and the server platform 2 can be a server device for storing a large amount of data; the detection terminal 3 is connected to each electric device, collects energy consumption data of the electric devices, sends the energy consumption data 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, stores different equipment numbers and corresponding energy consumption data, and utilizes the collected energy consumption data in the energy consumption analysis platform 1 to perform energy efficiency analysis by using the existing electric energy efficiency data system 12, wherein 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 and the energy efficiency analysis terminal 11 are detachably connected through the connecting piece 432, so that the energy efficiency analysis terminal is convenient for a user to use in different occasions, and the energy efficiency analysis terminal 11 and the server platform 2 are directly assembled, so that integration can be realized, and the energy efficiency analysis terminal is more convenient to carry and use. The connection mode drives the expansion component 43 to expand through the driving component 41 so as to achieve the assembly effect, and the connection mode has a more stable effect.

The expansion assembly 43 includes a plurality of clamping bars 431, a connecting piece 432 for connecting the driving assembly 41 and the clamping bars 431, the driving assembly 41 includes a connecting seat 411 for hinging the connecting piece 432, a rotating shaft 412 rotatably connected with the connecting seat 411, and a driving piece for driving the rotating shaft 412 to rotate, the supporting assembly 42 includes an assembly base 421 and a fixing piece 422 for fixing the energy efficiency analysis terminal 11, the clamping bars 431 are uniformly distributed on the assembly base 421 and hinged with the assembly 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 bars 431 to open or close, and when the clamping bars 431 open in the server platform 2, the energy consumption analysis platform 1 and the server platform 2 are detachably installed.

When the expansion assembly 43 expands, the expansion is performed in a mode that the clamping bars 431 are turned outwards, at this time, the outwards turned clamping bars 431 expand in the server platform 2 to hook the grooves in the server platform 2, and at this time, the clamping bars 431 are embedded into the corresponding grooves, so that the effect of stable fixation is achieved. Specifically, when the rotation shaft 412 rotates, since the rotation shaft 412 is screwed on the fixing member 422, the rotation shaft 412 will displace on the fixing member 422, and then drive the connecting seat 411 to move, the movement of the connecting seat 411 will drive the connecting member 432 to displace, at this time, the connecting member 432 will push out the clamping strip 431 to turn outwards along with the movement of the rotation shaft 412, and then the clamping strip 431 is embedded into the groove in the server platform 2, wherein the arrangement of the assembly base 421 can enable the clamping strip 431 to have a better rotation fulcrum. The shaft 412 and the connecting seat 411 are connected in a bearing fixing manner, and the shaft 412 and the connecting seat 411 have a relative fixing function and can rotate.

Further, the connecting seat 411 is provided with a hinge member 5, one end of the hinge member 5 is fixedly connected with the connecting seat 411, and the other end is hinged with the connecting member 432; the hinge 5 is provided with an infrared distance detecting means 51 to detect the distance between the hinge 5 and the mounting base 421.

The hinge 5 is more convenient for the connection piece 432 to hinge with the connection piece, the distance between the hinge 5 and the assembly base 421 can be detected through infrared distance detection on the hinge 5, when the rotation shaft 412 rotates to generate displacement, the connection seat 411 can also move together with the hinge 5, the distance detected by the infrared distance detection device 51 is changed, when the distance detected by the infrared distance detection device 51 is not changed any more, namely, the detection range of the infrared distance detection device 51 is changed to be not on the assembly base 421, the distance between the hinge 5 and the rotation shaft 412 is detected, and the slight distance change of the threads on the spring and the rotation shaft 412 is ignored at the moment, namely, the distance is approximately unchanged. At this time, it means that the expansion degree has reached the requirement, and the infrared distance detecting device 51 can be fixed by means of double-sided adhesive tape, so that the device is convenient for recycling.

Still 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 driving a hand, the other end of the handle is provided with a slot corresponding to the polygon on the rotating shaft 412, and when the slot is sleeved at one end of the polygon of the rotating shaft 412 and rotates the handle with the rotating shaft 412 as the axis, the rotating shaft 412 rotates.

Be used for driven one end in pivot 412 to be the polygon, the handle of being convenient for cup joint drives this moment, and this handle can adopt L shape or Z shape, and its specific mode of use references the crank of adopting the oil machine, and this handle can reuse drives a plurality of pivots 412 to assemble through this handle, means can pull down the handle after the assembly is accomplished, lets the plane of assembly more level and 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 positions of the hinges 5 correspond to those of the locking bars 431.

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

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

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

As an improved 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 with the communication interface 71; the communication interface 71 includes the communication interface 71 including three terminals that form a three-hole receptacle structure; one of the terminals is connected to the communication module in the server platform 2, and the other two terminals are grounded in the server platform 2; the antenna 72 includes a socket, an antenna 72 body, and a shielding layer wrapped outside the antenna 72 body, where the socket is a three-pin plug structure corresponding to the communication interface 71, and the socket is electrically connected to the shielding layer corresponding to two grounded terminals, and the socket is electrically connected to the antenna 72 body corresponding to the terminal connected to the communication module.

Under different use modes, the requirements for receiving signals by the server platform 2 are different, the signals may be interfered by poor arrangement of communication lines or wireless signal intensity, at this time, the gain antenna 72 needs to be used, if the gain antenna 72 is installed inside the server platform 2 in advance, the cost and the volume will be increased in the initial situation, the design is set through the plugged antenna 72, the installation can be conveniently performed when the antenna 72 is needed later, wherein the installation step is that the triangular plug on the plugging seat is plugged into the three-hole socket of the communication interface 71, and at this time, the interference signals are shielded through the shielding layer. The three-hole socket is matched with the three-pin plug in a simple, quick and stable plugging mode, and is suitable for all people to operate. 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, thereby reducing unnecessary design cost.

The output interface 8 includes a housing 81, a circuit board 83 which is disposed in the housing 81 and electrically connected to the communication module, and a plurality of magnetic columns 82, wherein the plurality of magnetic columns 82 are sequentially arranged according to polarity positive-negative-positive-negative and are fixedly connected to the housing 81, and are electrically connected to the circuit board 83; the mobile terminal 84 is matched with the output interface 8, and a plurality of corresponding magnetic columns 82 are arranged on the mobile terminal 84 and are fixed on the mobile terminal 84 according to the arrangement of reverse-forward-reverse-forward, and are attracted correspondingly to the magnetic columns 82 on the output interface 8; a plurality of mutually corresponding magnetic columns 82 are connected to the power supply, ground, first data terminal and second data terminal on a circuit board 83 of the output interface 8 and a mobile terminal 84, respectively.

When a user needs to manually receive data through the mobile terminal 84, the data is attracted through the magnetic column 82 on the mobile terminal 84 and the magnetic column 82 on the output interface 8, and when the magnetic column 82 is attracted and attached, the mobile terminal 84 and the output interface 8 communicate. The connection mode does not need to be spliced, the connection and the extraction actions are quick and effective, the interface is not damaged rapidly due to repeated plugging actions when data are received for a plurality of acquisition terminals like the existing data port splicing mode, the magnetic columns 82 of the output interface 8 are arranged in a reverse-forward-reverse-forward mode through the forward-reverse mode, and when the two are mutually close, the corresponding magnetic columns 82 can be automatically aligned due to the principles of opposite attraction and like attraction, so that the connection of users is further quickened, and the connection is very simple and accurate.

In a further arrangement, the ends of the magnetic posts 82 for engagement are flat, disc-shaped, and the post-shaped portions are embedded in the housing 81 or the mobile terminal 84.

The flat disc shape allows for a greater suction strength and a tighter connection, and embedding the cylindrical portion in the housing 81 or the mobile terminal 84 can improve the fixing strength.

Further, the output interface 8 includes a verification component 9, where the verification component 9 includes a plurality of photosensitive 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 photosensitive elements 91 corresponds to the number of light emitting diodes 92, and the light emitting diodes 92 are spaced from the magnetic columns 82 and are in the same line with the magnetic columns 82; adjacent photosensitive elements 91 are blocked by 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 are corresponding; the photosensitive elements 91 are connected with the circuit board 83 to receive photosensitive signals, and the anodes of the 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 a photosensitive signal to the mobile terminal 84 through the magnetic post 82.

Since the magnetic columns 82 have four groups, at most, five photosensitive elements 91 and light emitting diodes 92 can be arranged at intervals through the magnetic columns 82, the photosensitive elements 91 and the light emitting diodes 92 can be isolated through the magnetic columns 82, so that the light emitted by the same light emitting diode 92 is prevented from being received by the two photosensitive elements 91, and the verification result is influenced. Wherein the code acts as a calibration and also as a switch to initiate the data transmission from the data concentrator to control the data transfer between the acquisition terminal and the mobile terminal 84. The above photosensor 91 may be a photoresistor, a photodiode, a phototransistor, 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 examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims (9)

1. The integrated software and hardware 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 installed through a connecting component (4), the energy consumption analysis platform (1) comprises 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 expanding assembly (43); the driving assembly (41) and the expansion assembly (43) are both arranged on the supporting assembly (42), the supporting assembly (42) is used for installing 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 installed;

the expansion assembly (43) comprises a plurality of clamping bars (431), connecting driving assembly (41) and connecting pieces (432) of the clamping bars (431), the driving assembly (41) comprises a connecting seat (411) hinged to the connecting pieces (432), a rotating shaft (412) rotatably connected to the connecting seat (411) and driving pieces for driving the rotating shaft (412) to rotate, the supporting assembly (42) comprises an assembly base (421) and fixing pieces (422) used for being fixed to the energy efficiency analysis terminal (11), the clamping bars (431) are uniformly distributed on the assembly base (421) and hinged to the assembly base (421), the rotating shaft (412) is in threaded connection with the fixing pieces (422), when the rotating shaft (412) rotates, the rotating shaft (412) generates displacement, the clamping bars (431) are driven to open or close, and when the clamping bars (431) are open in the server platform (2), the energy consumption analysis platform (1) and the server platform (2) are detachably installed.

2. The integrated software and hardware energy consumption equipment monitoring platform based on the internet of things according to claim 1, wherein 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 is hinged with the connecting piece (432); an infrared distance detection device (51) is arranged on the hinge (5) to detect the distance between the hinge (5) and the assembly base (421).

3. The integrated software and hardware energy consumption equipment monitoring platform based on the internet of things according to claim 2, wherein the rotating shaft (412) is polygonal relative to the other end of the connecting seat (411), the driving piece comprises an L-shaped or Z-shaped handle, one end of the handle is used for driving a hand, a groove corresponding to the polygon on the rotating shaft (412) is formed in the other end of the handle, 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.

4. The integrated software and hardware energy consumption equipment monitoring platform based on the internet of things according to claim 3, wherein the number of the clamping bars (431) is three, and an included angle of 120 degrees is formed between every two clamping bars; the number and the positions of the hinge parts (5) are corresponding to the clamping bars (431).

5. The integrated software and hardware energy consumption equipment monitoring platform based on the internet of things according to claim 4, wherein 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 center line where the rotating shaft (412) is located; the locating plate (6) comprises two mutually parallel vertical plates (61) and an inclined plate (62) connected with the two vertical plates (61), wherein the distance between one vertical plate (61) and the central line of the rotating shaft (412) on the locating piece is larger than that between the other vertical plate (61).

6. The integrated software and hardware energy consumption equipment monitoring platform based on the internet of things according to claim 1, wherein a communication interface (71), an output interface (8) for transmitting data and an antenna (72) detachably connected with the communication interface (71) are arranged on the server platform (2); the communication interface (71) comprises the communication interface (71) comprising three terminals constituting a three-hole socket structure; one of the terminals is connected to a communication module in the server platform (2), and the remaining two terminals are grounded in the server platform (2); the antenna (72) comprises a plugging seat, an antenna (72) body and a shielding layer wrapping the outer side of the antenna (72), wherein the plugging seat is of a three-pin plug structure corresponding to the communication interface (71), the plugging seat corresponds to two grounded wiring terminals and is electrically connected with the shielding layer, and the plugging seat corresponds to the wiring terminals connected with the communication module and is electrically connected with the antenna (72) body.

7. The integrated software and hardware energy consumption equipment monitoring platform based on the internet of things according to claim 6, wherein 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 plurality of magnetic columns (82) are all arranged in the shell (81) and are electrically connected with the communication module, and the plurality of magnetic columns (82) are sequentially arranged according to polarity positive-negative-positive-negative and are fixedly connected to the shell (81) and are electrically connected with the circuit board (83); the mobile terminal (84) is matched with the output interface (8), a plurality of corresponding magnetic columns (82) are arranged on the mobile terminal (84), are arranged according to the reverse-forward-reverse-forward direction and are fixed on the mobile terminal (84), and are attracted correspondingly to the magnetic columns (82) on the output interface (8); a plurality of mutually corresponding magnetic columns (82) are respectively connected with a power supply, a ground, a first data end and a second data end on a circuit board (83) of the output interface (8) and a mobile terminal (84).

8. The integrated hardware and software energy consumption device monitoring platform based on the internet of things according to claim 7, wherein one end of the magnetic column (82) for attracting is flat disc-shaped, and the column-shaped part is buried in the housing (81) or the mobile terminal (84).

9. The integrated software and hardware energy consumption equipment monitoring platform based on the internet of things according to claim 8, wherein the output interface (8) comprises a verification component (9), the verification 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); adjacent photosensitive elements (91) are blocked by 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 are corresponding; the photosensitive elements (91) are connected with the circuit board (83) to receive photosensitive signals, and anodes of the 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 a photosensitive signal to the mobile terminal (84) through the magnetic column (82).