CN113313929B - Storage device for storing electric energy meter communication module of LoRa technology - Google Patents

Abstract

The application discloses a storage device for storing an electric energy meter communication module of LoRa technology, which comprises a storage assembly, a storage device and a storage device, wherein the storage assembly comprises a box body, a supporting plate arranged in the box body and a plurality of mounting holes formed in the supporting plate; the communication module comprises a core processing part, a first communication module adopting 485 bus communication, a second communication module adopting 4G communication to realize communication and a third communication module adopting RS232 to realize communication, wherein the core processing part is electrically connected with a double LoRa radio frequency part; and the dust cleaning assembly is arranged at the position, close to the supporting plate, of the box body.

Description

Storage device for storing electric energy meter communication module of LoRa technology

Technical Field

The application relates to the technical field of LoRa communication, in particular to a storage device for storing an electric energy meter communication module of LoRa technology.

Background

The current concentrator data acquisition technology mainly adopts the following modes, wherein one mode is that a concentrator power line is connected with an electric energy meter, carrier meter reading is used, and the concentrator transmits data to a master station server through a GPRS/4G network. The other is that a concentrator 485 bus is connected with an electric energy meter, a 485 channel is used for meter reading, and the concentrator sends data to a master station server through a GPRS/4G network. The two methods are mature and applied for many years, but have larger problems: (1) high construction cost and troublesome wiring; (2) The later maintenance is difficult, and the fault position and the fault reason are not easy to judge; (3) The wiring terminal is not stable enough, and a large amount of abrasion is caused by the wiring during use; (4) For cells with poor 4G networks, etc., the data cannot be efficiently uploaded.

The concentrator in the prior art is only placed in a common case at present, dust can enter and accumulate after long-time work, and when the dust is accumulated excessively to cause subsequent use, heat dissipation can be influenced by the dust, and normal work is easily hindered.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The present application has been made in view of the above-mentioned problems associated with the conventional storage device and method for storing a communication module of an electric energy meter for the LoRa technology.

Therefore, the application aims to provide a storage device for storing a communication module of an electric energy meter of LoRa technology.

In order to solve the technical problems, the application provides the following technical scheme: the storage device for storing the electric energy meter communication module of the LoRa technology comprises a storage assembly, a storage module and a control module, wherein the storage assembly comprises a box body, a supporting plate arranged in the box body and a plurality of mounting holes formed in the supporting plate; the communication module comprises a core processing part, a first communication module adopting 485 bus communication, a second communication module adopting 4G communication to realize communication and a third communication module adopting RS232 to realize communication, wherein the core processing part is electrically connected with a double LoRa radio frequency part; and the dust cleaning assembly is arranged at the position, close to the supporting plate, of the box body.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the box is close to backup pad outside one end and is equipped with the clearance groove, the notch department of clearance groove is equipped with the switch board, the vertical setting of rotation plane of switch board, the switch board upper end is equipped with the buckle.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the dust cleaning assembly comprises an anode plate, a cathode plate and adsorption paper, wherein the anode plate is connected in the box body in a sliding mode, the cathode plate is symmetrically arranged with the anode plate, the adsorption paper is arranged on the surface of the anode plate, a power supply circuit is connected onto the anode plate and the cathode plate, and the power supply circuit is externally connected with the box body and is provided with a control key.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the utility model discloses a scraper blade, including positive plate, box, baffle, clamping edge, first splint and second splint, the box is kept away from to strike off the board and is equipped with side by side with the articulated one end of box and accepts the case and trade the case, the box is close to and accepts case and trade the case department and be equipped with the tilt baffle, the tilt baffle inclines towards positive plate direction, wherein, it has a plurality of adsorption paper to accept the incasement stack, be equipped with the card limit on one side of adsorption paper, strike off and be equipped with first splint and with first splint articulated second splint on the board, all be equipped with the latch of meshing on the lateral wall of first splint and second splint.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the scraper comprises a scraper plate, and is characterized in that a circular ring is arranged at the lower end of the scraper plate, a rotating shaft extends outwards from the circular ring, a sliding groove is formed in the circular ring, a sliding block matched with the circular ring is arranged on the rotating shaft, and an elastic piece is arranged between the circular ring and the rotating shaft.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the ring is kept away from ring one end and is equipped with first belt pulley, be equipped with the second belt pulley in the box, be equipped with the belt between first belt pulley and the second belt pulley.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the novel cleaning device is characterized in that a sliding rail is arranged in the box body, a first driving plate is connected in the sliding rail in a sliding manner, a second driving plate is connected to the front end and the rear end of the first driving plate in a rotating manner, one end, far away from the sliding rail, of each second driving plate is hinged to the first driving plate or the second driving plate, a sliding groove is formed in one end, extending into the cleaning groove, of the sliding rail, a telescopic rod is connected in the sliding groove in a sliding manner, and a torsion spring is arranged at the hinged position of the second driving plate and the first driving plate.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the heat dissipation device comprises a box body, and is characterized in that a heat dissipation component is arranged in the box body, the heat dissipation component comprises a connecting frame arranged at the notch of a reserved groove of a main board, a connecting plate arranged on the connecting frame and a heat dissipation row rotationally connected to the connecting plate, wherein an abutting plate is arranged at the lower end of the connecting plate and is abutted to a core processor, and a heat conduction pad is arranged on one side of the abutting plate, close to the core processor.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the heat dissipation row is provided with a heat conduction pipe along the winding of the forward direction of the heat dissipation row, the heat conduction pipe is arranged close to one end of the abutting plate in a flattened mode, the surface of the heat dissipation row is provided with a plurality of first clamping grooves matched with the heat conduction pipe, the interior of the heat dissipation row is provided with a plurality of second clamping grooves along the direction perpendicular to the direction of the first clamping grooves, a water cooling pipe is clamped in the second clamping grooves, water cooling liquid is arranged in the water cooling pipe, one end of the water cooling pipe outwards stretches out of the heat dissipation row and is likewise arranged in a flattened mode, and a driving assembly is arranged between the heat dissipation row and the connecting frame.

As an optimal scheme of the storage device for storing the electric energy meter communication module of the LoRa technology, the application comprises the following steps: the driving component comprises a driving rod connected with the connecting frame in a sliding way, a control rod hinged with one end of the driving rod, and a sliding sleeve connected with the control rod in a sliding way, two ends of the sliding strip extend out of the rotating shaft to be hinged with the outer whole box,

the driving device comprises a driving rod, a driving groove is formed in the driving rod, the driving groove comprises a first transverse groove formed in the length direction of the driving rod, a second transverse groove communicated with the first transverse groove and obliquely arranged, and a third transverse groove communicated with the first transverse groove and the second transverse groove, a driving rod is arranged in the driving groove, a jacking rod is sleeved on the driving rod, a clamping ring extends outwards on the heat dissipation row, the clamping ring is hinged to the jacking rod, a sleeve is arranged at the lower end of the jacking rod, an elastic piece is arranged between the driving rod and the sleeve, a convex plate matched with the driving rod is arranged between the second transverse groove and the third transverse groove, an exhaust fan is arranged on the heat dissipation row, a clamping sleeve rod is arranged on the sleeve, the clamping sleeve rod is rotationally connected with a clamping rod, a holding ring is arranged at one end of the clamping rod close to the exhaust fan, a conical block is arranged at one end of the clamping rod, and a spring is arranged between the conical block and the clamping sleeve.

The application has the beneficial effects that: when the intelligent electric energy meter is in operation, related information passing through the RS232 communication module is read and matched with a first LoRa gateway synchronous channel and a network manager, then a second LoRa queries equipment channels around the channels to form mutual exclusion of the channels, all electric energy meters are informed of LoRa switching to the channels to form a unified channel, complete data interaction of the whole module is achieved, and after the operation is carried out for a certain time, an operator starts a dust cleaning component to clean dust.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a schematic diagram of the overall structure of a storage device for storing a communication module of an electric energy meter according to the LoRa technology.

Fig. 2 is an exploded view of a sliding rail structure of a storage device for storing a communication module of an electric energy meter according to the present application.

Fig. 3 is an exploded schematic view of a scraper structure on an anode plate of a storage device for storing a communication module of an electric energy meter according to the present application.

Fig. 4 is a schematic diagram of a heat dissipating row structure of a storage device for storing a communication module of an electric energy meter according to the present application.

Fig. 5 is a schematic structural diagram of a heat dissipation assembly of the storage device for storing the communication module of the electric energy meter according to the present application.

Fig. 6 is a schematic diagram of a driving assembly of a storage device for storing a communication module of an electric energy meter according to the present application.

Fig. 7 is a cross-sectional view of the internal structure of the locking loop bar of the storage device for storing the communication module of the electric energy meter according to the LoRa technology.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Further, in describing the embodiments of the present application in detail, the cross-sectional view of the device structure is not partially enlarged to a general scale for convenience of description, and the schematic is only an example, which should not limit the scope of protection of the present application. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

Example 1

Referring to fig. 1, a storage device for storing a communication module of an electric energy meter of a LoRa technology includes a storage assembly 100 including a case, a support plate 101 disposed in the case, and a plurality of mounting holes opened on the support plate 101; the communication module comprises a core processing part, a first communication module adopting 485 bus communication, a second communication module adopting 4G communication to realize communication and a third communication module adopting RS232 to realize communication, wherein the core processing part is electrically connected with a double LoRa radio frequency part; and the dust cleaning assembly 200 is arranged at the position, close to the supporting plate 101, of the box body, a cleaning groove is formed in one end, close to the outer side of the supporting plate 101, of the box body, a switch plate 102 is arranged at the notch of the cleaning groove, the rotating plane of the switch plate 102 is vertically arranged, and a buckle is arranged at the upper end of the switch plate 102.

Specifically, the main body of the application comprises a storage component 100, in this embodiment, the storage component 100 comprises a box body, in this embodiment, a supporting plate 101 is further arranged in the box body, the supporting plate 101 is arranged along the vertical direction, and a plurality of mounting holes are formed in the supporting plate 101, and the mounting holes are convenient for an operator to position when the component of the module is mounted.

Furthermore, the main body of the application further comprises a communication module, in this embodiment, the communication module comprises a core processing part, the core processing part is used as an operation, processing and analysis center of the whole module, in this embodiment, the core processing part adopts an LPC1768 chip, the communication module further comprises a first communication module for communicating by adopting 485 buses, the communication module further comprises a second communication module for communicating by utilizing 4G, and a third communication module for realizing communication by adopting RS232, when a certain communication mode fails, various communication modes have alternative modes, the communication is ensured not to be stagnated due to failure, then the core processing part is also directly and electrically connected with a double LoRa radio frequency part, the double LoRa radio frequency part is a wireless communication module taking an SX1301 chip as a core, and the double LoRa radio frequency part and the core processing part form bidirectional communication by URAT, so that data interaction is realized.

Further, a cleaning groove is formed in one end, close to the outer side of the supporting plate 101, of the box body, a switch plate 102 is arranged at a notch of the cleaning groove, a rotation plane of the switch plate 102 is vertically arranged, then a buckle is arranged at the upper end of the switch plate 102, the dust cleaning assembly 200 is further arranged on the main body, and the dust cleaning assembly 200 is arranged in the position, close to the supporting plate 101, of the box body.

The operation process comprises the following steps: during operation, related information passing through the RS232 communication module is read and matched with the first LoRa gateway synchronous channel and the network management, then the second LoRa queries equipment channels around the channels to form mutual exclusion of the channels, all electric energy meters LoRa are informed to be switched to the channels to form a unified channel, complete data interaction of the whole module is achieved, and after the operation is carried out for a period of time, an operator starts the dust cleaning assembly 200 to clean dust.

Example 2

Referring to fig. 1-3, this embodiment differs from the first embodiment in that: the dust cleaning assembly 200 comprises an anode plate 201 which is connected in a box body in a sliding manner, a cathode plate 202 which is symmetrically arranged with the anode plate 201, and adsorption paper which is arranged on the surface of the anode plate 201, wherein a power supply circuit is connected on the anode plate 201 and the cathode plate 202, the power supply circuit is externally connected with the box body and is provided with a control key, the lower end position of the anode plate 201 is rotationally connected with a scraping plate 203, one end of the box body, which is far away from the scraping plate 203 and hinged with the box body, is provided with a carrying box 204 and a paper changing box 205 side by side, the box body is provided with an inclined baffle 206 close to the carrying box 204 and the paper changing box 205, the inclined baffle 206 inclines towards the anode plate 201, a plurality of adsorption papers are stacked in the carrying box 204, a clamping edge is arranged on one side of each adsorption paper, a first clamping plate and a second clamping plate hinged with the first clamping plate are arranged on the scraping plate 203, and meshed clamping teeth are arranged on the side walls of the first clamping plate and the second clamping plate, the lower extreme of striking off board 203 is provided with ring 207, outwards stretch out pivot 208 on the ring 207, set up the spout on the ring 207, be equipped with on the pivot 208 with ring 207 complex slider, be equipped with first elastic component 209 between ring 207 and the pivot 208, ring 207 keeps away from ring 207 one end and is equipped with first belt pulley 300, be equipped with second belt pulley 301 in the box, be equipped with belt 302 between first belt pulley 300 and the second belt pulley 301, be equipped with slide rail 303 in the box, slide rail 303 sliding connection has first drive plate 304, the front end and the rear end of first drive plate 304 all rotate and are connected with second drive plate 305, every second drive plate 305 is kept away from slide rail 303 one end all with anode plate 201 or negative plate 202 articulated, slide rail 303 stretches into clearance groove one end and is equipped with sliding groove 306, sliding connection has telescopic link 307 in the sliding groove 306, second drive plate 305 and first drive plate 304 articulated department is equipped with the torsional spring.

Specifically, in this embodiment, the dust cleaning assembly 200 includes an anode plate 201 slidingly connected in the box, a cathode plate 202 disposed in the box and far away from one end of the anode plate 201, and the anode plate 201 and the cathode plate 202 are correspondingly disposed, a circuit is connected between the anode plate 201 and the cathode plate 202, and then a relative electric field is generated, so that the dust is negatively charged and then moves toward the anode plate 201, and adsorption paper is adsorbed on the surface of the anode plate 201, so that the dust can be adsorbed.

Further, rotate on anode plate 201 and be connected with strike-off plate 203, strike-off plate 203 butt anode plate 201 surface sets up, then keep away from strike-off plate 203 and box articulated one end in the box and be fixed with side by side and accept case 204 and trade carton 205, then still be provided with tilt baffle 206 in the box inside, tilt baffle 206's slope is towards anode plate 201 to set up in accepting the intermediate position of case 204 and trade carton 205, trade carton 205 setting in the direction that is close to anode plate 201, still pile up a plurality of adsorption paper in trade carton 205, the end position after the adsorption paper is folded is provided with the card limit, the card limit material is rubber.

In order to clamp the adsorption paper, a first clamping plate is further arranged at the upper end of the scraping rod, a second clamping plate is further rotationally connected to the first clamping plate, the rotation plane of the second clamping plate is perpendicular to the surface of the anode plate 201, then mutually meshed clamping teeth are formed in the side walls of the first clamping plate and the second clamping plate, then a driving motor for driving the clamping teeth to rotate is arranged on the scraping rod, then a circular ring 207 is arranged at the lower end of the scraping plate 203, a rotating shaft 208 extends outwards from the circular ring 207, a sliding groove is formed in the circular ring 207, a sliding block matched with the circular ring 207 is arranged on the rotating shaft 208, the scraping plate 203 can slide on the rotating shaft 208, a first elastic piece 209 is arranged between the circular ring 207 and the rotating shaft 208, and the scraping plate 203 is always driven to move towards the direction close to the anode plate 201.

Further, in order to drive the swing of the scraping rod, a first belt pulley 300 is arranged at one end of the circular ring 207 far away from the circular ring 207, a second belt pulley 301 is arranged in the box body, a belt 302 is arranged between the first belt pulley 300 and the second belt pulley 301, and the belt 302 is used for realizing the control through the wheel transmission.

Then in order to pack up anode plate 201 and cathode plate 202 when need not use anode plate 201 and cathode plate 202, still slide and be connected with slide rail 303 in the box, still slide and be connected with first drive plate 304 in slide rail 303, first drive plate 304 outwards stretches out operating handle, the front end and the rear end of first drive plate 304 all rotate and be connected with second drive plate 305, the rotation plane of second drive plate 305 is perpendicular to the bottom surface of slide rail 303, the other end of second drive plate 305 articulates with anode plate 201 and cathode plate 202, then set up sliding groove 306 on the lateral wall of slide rail 303, slide and be connected with telescopic link 307 in sliding groove 306, sliding groove 306's position sets up in the bottom surface position that is higher than slide rail 303, sliding groove 306 is buckled to slide rail 303 bottom surface position in slide rail 303's front end position, then be connected with the elastic rope between telescopic link 307 and sliding groove 306, can pull telescopic link 307 back initial position, then be provided with the torsional spring in the articulated department of second drive plate 305, the second drive plate 305 inwards slide rail 303 all the time.

The rest of the structure is the same as in embodiment 1.

The operation process comprises the following steps: when the operator needs to remove dust, the operator drives the first driving plate 304 to slide, then drives the telescopic rod 307 to shift up the second driving plate 305, so that the second driving plate 305 rotates to a position vertical to the first driving plate 304, then drives the telescopic rod 307 to move when the second driving plate 305 moves, then pushes the telescopic rod 307 into a bending part after the first driving plate 304 moves to the end position of the sliding rail 303, then the second driving plate 305 is reset under the action of the torsion spring, at this time, the anode plate 201 and the cathode plate 202 move to a position to be operated, then the operator drives the rotation of the belt 302, then drives the belt 302 to drive the scraping plate 203 to swing, then drives the scraping plate 203 to move to the position of the inclined baffle 206, then the lower end of the scraping plate 203 moves to a position of the receiving box 204 along with the movement, then the scraping plate 203 passes through the position of the inclined baffle 206, the scraping plate 203 resets under the action of the elastic piece 209, moves to the position of the paper changing box 205, then the operator starts the second clamping plate, clamps one piece of adsorption paper, then the belt 302 rotates to the anode plate 203 drives the scraping plate 203 to swing, and then the second clamping plate is adsorbed on the adsorption paper, and the second clamping plate is repeatedly adsorbed by the operator, thus the operator can start up the adsorption procedure.

Example 3

Referring to fig. 4-7, this embodiment differs from the above embodiments in that: the heat radiation component comprises a connecting frame 401 arranged at the notch of the reserved groove of the main board, a connecting plate 402 arranged on the connecting frame 401 and a heat radiation row 403 rotationally connected on the connecting plate 402, wherein the lower end of the connecting plate 402 is provided with a propping plate 404, the propping plate 404 is propped against the core processor, one side of the propping plate 404 close to the core processor is provided with a heat conduction pad, a heat conduction pipe 405 is wound on the heat radiation row 403 along the forward direction of the heat radiation row 403, one end of the heat conduction pipe 405 close to the propping plate 404 is arranged in a flattened way, a plurality of first clamping grooves matched with the heat conduction pipe 405 are arranged on the surface of the heat radiation row 403, a plurality of second clamping grooves vertical to the first clamping grooves are arranged in the heat radiation row 403, a water cooling pipe 406 is clamped in the second clamping grooves, a water cooling liquid is arranged in the water cooling pipe 406, one end of the heat radiation row 403 extends outwards and is also arranged in a flattened way, a driving component 500 is arranged between the heat radiation row 403 and the connecting frame 401, the driving assembly 500 comprises a driving rod 501 connected on the connecting frame 401 in a sliding way, a control rod 502 hinged on one end of the driving rod 501, and a sliding sleeve 503 connected on the control rod 502 in a sliding way, wherein two ends of the sliding rod extend out of a rotating shaft 208 and are hinged with the outer whole box, the driving rod 501 is provided with a driving groove 504, the driving groove 504 comprises a first transverse groove 504a arranged along the length direction of the driving rod 501, a second transverse groove 504b communicated with the first transverse groove 504a and obliquely arranged, and a third transverse groove 504c communicated with the first transverse groove 504a and the second transverse groove 504b, a driving strip 505 is arranged in the driving groove 504, a jacking rod 506 is sleeved on the driving strip 505, a clamping ring 507 extends outwards on the heat dissipation row 403, the clamping ring 507 is hinged with the jacking rod 506, the lower end of the jacking rod 506 is provided with a sleeve 508, a second elastic member 509 is arranged between the driving strip 505 and the sleeve 508, a convex plate 509a matched with the driving bar 505 is arranged between the second transverse groove 504b and the third transverse groove 504c, an exhaust fan 600 is arranged on the heat dissipation row 403, one end, far away from the convex plate 509a, of the driving bar 505 is provided with a control part 601 for controlling the exhaust fan 600, the control part 601 comprises a clamping sleeve rod 602 arranged on the sleeve 508, a clamping rod 603 rotationally connected in the clamping sleeve rod 602, a holding ring 604 arranged at one end, close to the exhaust fan 600, of the clamping rod 603 and a conical block 605 arranged at one end, close to the driving bar 505, of the clamping rod 603, a spring 606 is arranged between the conical block 605 and the clamping sleeve rod 602, a plurality of annularly arranged elastic sheets 607 are arranged in the holding ring 604, and rubber pads are arranged on the elastic sheets 607.

Specifically, in this embodiment, the heat dissipation component includes the link 401 that sets up in the notch department of mainboard reservation groove, link 401 and mainboard reservation groove are connected through the bolt, then still be provided with connecting plate 402 on link 401, connecting plate 402 sets up along the tank bottom wall of perpendicular to mainboard reservation groove, then rotate on connecting plate 402 and be connected with heat dissipation row 403, the shape of heat dissipation row 403 is square, and be formed by a plurality of flat lamellar fin, and weld each other, then still be fixed with butt plate 404 at the lower extreme of connecting plate 402, butt plate 404 outwards stretches out link 401, and after link 401 installs, butt plate 404 and core processor butt, then the laminating has the heat conduction pad in butt plate 404 near core processor one end, the material of heat conduction pad is silicone grease for conducting the heat on the core processor, then in order to heat transmission to on the heat dissipation row 403, along the forward direction of heat dissipation row 403 on the periphery of heat dissipation row 403, the winding is provided with pipe 405, and be provided with three rows side by side, then the heat conduction pipe 405 is close to the butt plate 404, heat dissipation row 405 can be reduced and the heat dissipation area can be reduced, and the heat dissipation row can be reduced, and the heat dissipation area can be reduced.

Further, in order to make the radiating effect better, an exhaust fan 600 is further arranged on the radiating row 403, and the exhaust fan 600 blows air to the radiating row 403, so that the heat transferred to the radiating row 403 and the heat conducting tube 405 is blown outwards, and the heat is taken away by wind power, so that further cooling is realized.

Further, when the ambient temperature is too high, the heat dissipation effect of the exhaust fan 600 cannot be good enough, the water cooling pipes 406 are arranged inside the heat dissipation rows 403 along the direction perpendicular to the heat conduction pipes 405, the water cooling pipes 406 are also wound and arranged in a fitting manner, one ends of the water cooling pipes 406 extending out of the heat dissipation rows 403 are also arranged in a flattened manner, meanwhile, the water cooling pipes 406 are externally communicated with a circulating pipe, and a water pump is arranged on the circulating pipe, so that cooling liquid flows in the water cooling pipes 406 and the circulating pipe to realize water cooling.

Further, in order to drive the heat dissipating row 403 to rotate, so that an operator can choose whether to perform air cooling or water cooling, a driving assembly 500 is arranged between the heat dissipating row 403 and the connecting frame 401, in this embodiment, the driving assembly 500 comprises a driving rod 501 slidingly connected to the connecting frame 401, the driving rod 501 slides along the horizontal direction, meanwhile, in order to facilitate the operator to control the movement of the driving rod 501, a control rod 502 is hinged at one end of the driving rod 501, the rotation plane of the control rod 502 is vertically arranged, the driving rod 501 extends out of the outer box, the operator can use conveniently, then a sliding sleeve 503 is rotationally connected in the outer box, the rotation plane of the sliding sleeve 503 is vertically arranged, the sliding sleeve 503 is sleeved on the control rod 502 and slidingly connected with the control rod 502, and then a driving groove 504 is formed in the side wall of the driving rod 501.

In this embodiment, the driving groove 504 includes a first transverse groove 504a formed along the length direction of the driving rod 501, a second transverse groove 504b formed by communicating with the first transverse groove 504a and obliquely arranged, and a third transverse groove 504c formed by communicating with both the first transverse groove 504a and the second transverse groove 504b, wherein the first transverse groove 504a, the second transverse groove 504b and the third transverse groove 504c together form an isosceles triangle, then a driving bar 505 is slidably connected in the driving groove 504, the driving bar 505 is arranged along the bottom direction perpendicular to the driving groove 504, the driving bar 505 is cylindrical, a jacking rod 506 is sleeved outside the driving bar 505, the jacking rod 506 is arranged along the vertical direction, a snap ring 507 extends outwards on the heat dissipation bar 403, one end of the snap ring 507 extends out is hinged with the end of the jacking rod 506, so that the jacking rod 506 moves along the setting direction, the movement of the snap ring 507 is driven, and then the heat dissipation bar 403 is driven to rotate, so that whether the heat conduction pipe 405 is abutted against the core processor or the water cooling pipe 406 is abutted against the core processor can be selected.

Further, a sleeve 508 is arranged at the lower end of the jack-up rod 506, the sleeve 508 is sleeved with the driving bar 505, a second elastic member 509 is arranged between the driving bar 505 and the sleeve 508, the second elastic member 509 always drives the driving bar 505 to move into the driving groove 504, the driving bar 505 can extend out of the sleeve 508, then a control part 601 is arranged on the driving bar 505 and the sleeve 508, the control part 601 can control to close the exhaust fan 600, and when the exhaust fan 600 rotates and is adjusted to a water cooling mode, the exhaust fan 600 is synchronously closed.

In this embodiment, the control part 601 includes a locking sleeve rod 602 disposed on the sleeve 508, the locking sleeve rod 602 is disposed obliquely, and a cavity is formed in the locking sleeve rod 602, a locking rod 603 is rotationally connected inside the locking sleeve rod 602, a rotation plane of the locking rod 603 is disposed along a surface perpendicular to the driving rod 501, then a holding ring 604 is disposed at one end of the locking rod 603 far from the sleeve 508, the size of the holding ring 604 is consistent with the position of the central protrusion of the exhaust fan 600, the exhaust fan 600 can be clamped, the exhaust fan 600 is stopped, then a conical block 605 is disposed at one end of the locking rod 603 close to the driving rod 505, a spring 606 is disposed between one side of the locking block far from the conical block 605 and the locking sleeve rod 602, the spring 606 always drives the conical block 605 to extend outwards, then a convex plate 509a is disposed at a joint of the second transverse slot 504b and the third transverse slot 504c, after the driving rod 505 moves to the convex plate 509a position, the driving rod 505 moves outwards, then the conical block 603 is pushed, and then the exhaust fan 600 is clamped at the front end of the locking rod 603.

Preferably, 6 equally-spaced elastic pieces 607 are arranged in the holding ring 604, the elastic pieces 607 can clamp the center of the exhaust fan 600, and a rubber pad is attached to the elastic pieces 607 for increasing the friction force during clamping.

The rest of the structure is the same as in embodiment 2.

The operation process comprises the following steps: when the module works, an operator selects to use the heat conducting tube 405 to dissipate heat or the water cooling tube 406 to dissipate heat according to different temperature environments, and the initial state of the heat dissipation assembly 400 is that the heat conducting tube 405 and the exhaust fan 600 work to realize heat dissipation of the fan, when the water cooling heat dissipation is required to be adjusted, the operator dials the control rod 502 to drive the driving rod 501 to push forwards, then the driving rod 505 moves from the first transverse groove 504a to the second transverse groove 504b, and then drives the jacking rod 506 to drive the jacking rod 506 to push the clamping ring 507, the clamping ring 507 drives the heat dissipation row 403 to rotate, the water cooling tube 406 is abutted to the abutting plate 404, then the water pump is controlled electrically, cooling liquid is circulated, water cooling is realized, meanwhile, the convex plate 509a pushes the driving rod 505 outwards, the driving rod 501 presses the conical block 605 inwards, then the clamping rod 603 rotates, the holding ring 604 at the front end of the clamping rod 603 stretches out, and the exhaust fan 600 is stopped.

It is important to note that the construction and arrangement of the application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter described in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of present application. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present applications. Therefore, the application is not limited to the specific embodiments, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Furthermore, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those not associated with the best mode presently contemplated for carrying out the application, or those not associated with practicing the application).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (2)

1. A storage device for storing electric energy meter communication module of loRa technique, its characterized in that: comprising the steps of (a) a step of,

the storage assembly (100) comprises a box body, a supporting plate (101) arranged in the box body and a plurality of mounting holes formed in the supporting plate (101);

the communication module comprises a core processing part, a first communication module adopting 485 bus communication, a second communication module adopting 4G communication to realize communication and a third communication module adopting RS232 to realize communication, wherein the core processing part is electrically connected with a double LoRa radio frequency part; the method comprises the steps of,

the dust cleaning component (200), the dust cleaning component (200) is arranged at the position of the box body, which is close to the supporting plate (101), a cleaning tank is reserved at one end of the box body, which is close to the outer side of the supporting plate (101), a switch plate (102) is arranged at the notch of the cleaning tank, the rotation plane of the switch plate (102) is vertically arranged, the upper end of the switch plate (102) is provided with a buckle, the dust cleaning component (200) comprises an anode plate (201) which is connected in the box body in a sliding way, a cathode plate (202) which is symmetrically arranged with the anode plate (201) and adsorption paper which is arranged on the surface of the anode plate (201),

wherein the anode plate (201) and the cathode plate (202) are connected with a power supply circuit, the power supply circuit is externally connected with a box body and is provided with a control key, the anode plate (201) is rotationally connected with a scraping plate (203), one end, away from the scraping plate (203), hinged with the box body in the box body is provided with a carrying box (204) and a paper changing box (205) side by side, the box body is provided with an inclined baffle (206) close to the carrying box (204) and the paper changing box (205), the inclined baffle (206) inclines towards the direction of the anode plate (201),

wherein a plurality of adsorption papers are stacked in the carrying box (204), a clamping edge is arranged on one side of the adsorption papers, a first clamping plate and a second clamping plate hinged with the first clamping plate are arranged on the scraping plate (203), engaged clamping teeth are arranged on the side walls of the first clamping plate and the second clamping plate, a circular ring (207) is arranged at the lower end of the scraping plate (203), a rotating shaft (208) extends outwards from the circular ring (207), a sliding groove is formed in the circular ring (207), a sliding block matched with the circular ring (207) is arranged on the rotating shaft (208), a first elastic piece (209) is arranged between the circular ring (207) and the rotating shaft (208), the utility model discloses a novel energy-saving device, which is characterized in that a first belt pulley (300) is arranged at one end of the circular ring (207) far away from the circular ring (207), a second belt pulley (301) is arranged in the box body, a belt (302) is arranged between the first belt pulley (300) and the second belt pulley (301), a sliding rail (303) is arranged in the box body, a first driving plate (304) is connected in a sliding manner in the sliding rail (303), a second driving plate (305) is rotationally connected at the front end and the rear end of the first driving plate (304), one end of each second driving plate (305) far away from the sliding rail (303) is hinged with the first driving plate (304) or the second driving plate (305),

one end of the sliding rail (303) extending into the cleaning groove is provided with a sliding groove (306), the sliding groove (306) is connected with a telescopic rod (307) in a sliding manner, a torsion spring is arranged at the hinge joint of the second driving plate (305) and the first driving plate (304), a heat dissipation assembly (400) is arranged in the box body, the heat dissipation assembly (400) comprises a connecting frame (401) arranged at the notch of the main board reserved groove, a connecting plate (402) arranged on the connecting frame (401) and a heat dissipation row (403) rotationally connected on the connecting plate (402),

the heat dissipation device comprises a connecting plate (402), wherein an abutting plate (404) is arranged at the lower end of the connecting plate (402), the abutting plate (404) is abutted to a core processor, a heat conduction pad is arranged on one side, close to the core processor, of the abutting plate (404), a heat conduction pipe (405) is wound on the heat dissipation row (403) along the forward direction of the heat dissipation row (403), the heat conduction pipe (405) is arranged close to one end of the abutting plate (404) in a flattened mode, a plurality of first clamping grooves matched with the heat conduction pipe (405) are formed in the surface of the heat dissipation row (403), a plurality of second clamping grooves perpendicular to the first clamping grooves are formed in the heat dissipation row (403), a water cooling pipe (406) is clamped in the second clamping grooves, water cooling liquid is arranged in the water cooling pipe (406), one end, which extends out of the heat dissipation row (403), of the heat dissipation row (403) is arranged in the same flattened mode, and a driving assembly (500) is arranged between the heat dissipation row (403) and a connecting frame (401).

2. The storage device for storing a LoRa technology electric energy meter communication module of claim 1, wherein: the driving assembly (500) comprises a driving rod (501) connected on the connecting frame (401) in a sliding way, a control rod (502) hinged on one end of the driving rod (501), and a sliding sleeve (503) connected on the control rod (502) in a sliding way, wherein two ends of the sliding sleeve (503) extend out of the rotating shaft (208) to be hinged with the outer whole box,

wherein the driving rod (501) is provided with a driving groove (504), the driving groove (504) comprises a first transverse groove (504 a) which is arranged along the length direction of the driving rod (501), a second transverse groove (504 b) which is communicated with the first transverse groove (504 a) and is obliquely arranged, and a third transverse groove (504 c) which is communicated with the first transverse groove (504 a) and the second transverse groove (504 b),

a driving bar (505) is arranged in the driving groove (504), a jacking rod (506) is sleeved on the driving bar (505), a clamping ring (507) is outwards extended on the heat dissipation row (403), the clamping ring (507) is hinged with the jacking rod (506),

the lower end of the jacking rod (506) is provided with a sleeve (508), a second elastic piece (509) is arranged between the driving bar (505) and the sleeve (508), a convex plate (509 a) matched with the driving bar (505) is arranged between the second transverse groove (504 b) and the third transverse groove (504 c),

be equipped with exhaust fan (600) on heat dissipation row (403), be equipped with on sleeve (508) and block loop bar (602), block loop bar (602) rotate and be connected with block pole (603), block pole (603) are close to exhaust fan (600) one end and are equipped with armful ring (604), block pole (603) are close to drive strip (505) one end and are equipped with conical block (605), be equipped with spring (606) between conical block (605) and block loop bar (602).