CN114025521A - Communication case with automatic temperature energy-saving regulation and control function - Google Patents

Abstract

The invention relates to the technical field of communication chassis, and discloses a communication chassis with a temperature automatic energy-saving regulation function, which comprises a main chassis body, a bottom chassis arranged at the lower end of the main chassis body, and a top chassis arranged at the upper end of the main chassis body, wherein the main chassis body comprises a displacement mechanism arranged inside the main chassis body, a heat dissipation mechanism arranged at one side of the main chassis body, and a detection element A and a detection element B arranged inside the main chassis body, wherein the detection element A and the detection element B are respectively arranged at the lower and upper ends inside the main chassis body, when the main chassis body needs to dissipate heat, an electromagnetic block is attached with the same magnetism as the magnetic lock block, so that the magnetic lock block slowly extrudes a primary spring until one end of the magnetic lock block is separated from a butt joint groove, a baffle plate is driven by the rotation of a rotary seat, thereby realizing the purpose of exposing heat dissipation holes, realizing the heat dissipation effect, and after the heat dissipation is finished, the electromagnetic block is attached with the opposite magnetism to the magnetic lock block, therefore, the electromagnetic block and the magnetic locking block are attracted due to opposite magnetism, and the purpose of closing the blocking plate is achieved.

Description

Communication case with automatic temperature energy-saving regulation and control function

Technical Field

The invention relates to the technical field of communication cabinets, in particular to a communication cabinet with a temperature automatic energy-saving regulation function.

Background

The communication cabinet is a cabinet used in communication, and the product is a cabinet processed by sheet metal equipment, which provides space for power supply, motherboard, various expansion board cards, floppy disk drive, CD drive, hard disk drive and other storage devices, and these spare and accessory parts are firmly fixed in the cabinet by the support, bracket, various screws or clip and other connecting pieces in the cabinet, forming an intensive whole.

Present communication machine case is difficult to hold in dustproof and two aspects of heat dissipation concurrently, when communication machine case louvre is enough many, holistic heat dispersion is better, but dustproof effect can descend naturally, on the contrary, when dustproof effectual, the radiating effect will deviate, thereby it is all relatively poor with dustproof effect to make whole heat dissipation, secondly, present communication machine case is when its inside temperature is higher, be difficult to independently dispel the heat or avoid to its inside, hot gas and cold air are because of density difference, shared position is also different, communication machine case is difficult to accomplish according to the circumstances, thereby lead to the inside electronic component life of communication machine case to shorten.

Aiming at the problems, the prior device is improved, and a communication case with a temperature automatic energy-saving regulation function is provided.

Disclosure of Invention

The invention aims to provide a communication case with a temperature automatic energy-saving regulation function, which solves the problems that the prior art is difficult to combine dust prevention and heat dissipation, when enough heat dissipation holes are formed in the communication case, the integral heat dissipation performance is better, but the dust prevention effect is naturally reduced, and on the contrary, when the dust prevention effect is good, the heat dissipation effect is deviated, so that the integral heat dissipation effect and the dust prevention effect are poorer, and secondly, when the internal temperature of the prior communication case is higher, the prior communication case is difficult to perform independent heat dissipation or avoid in the prior communication case, the occupied positions of hot gas and cold gas are different due to different densities, and the communication case is difficult to make things for the ground, so that the service life of electronic elements in the communication case is shortened.

In order to achieve the purpose, the invention provides the following technical scheme: a communication case with a temperature automatic energy-saving regulation function comprises a main case body, a bottom case arranged at the lower end of the main case body and a top case arranged at the upper end of the main case body, wherein the main case body comprises a displacement mechanism arranged in the main case body, a heat dissipation mechanism arranged at one side of the main case body, a detection element A and a detection element B which are arranged in the main case body, and the detection element A and the detection element B are respectively arranged at the lower end and the upper end in the main case body;

the heat dissipation mechanism is including setting up the radiating groove in main tank body one side, the louvre of setting on the radiating groove inner wall, and set up the separation subassembly in the radiating groove inside, the louvre is linked together with the main tank body, the separation subassembly is including setting up the movable rod in the radiating groove inside, the separation board of setting on the movable rod surface, and set up the roating seat at the movable rod both ends, the movable rod is connected with the radiating groove through the roating seat, one side of separation board is provided with the board groove, the inside in board groove is provided with magnetism locking piece and one-level spring, the magnetism locking piece is connected with the board groove through one-level spring.

Further, the radiating groove sets up at the inside electric magnetic piece and the tablet of butt joint inslot portion including setting up the butt joint groove in the radiating groove inside to and set up the second grade spring in electric magnetic piece one side, and the electric magnetic piece is connected with the tablet through the second grade spring, and the electric magnetic piece is connected with magnetism locking piece magnetism, and sets up in same horizontal plane, and the electric magnetic piece is connected with external power supply through the tablet.

Further, the main tank body comprises a strip-shaped groove arranged at the bottom of the main tank body, a perforation and a communication grid arranged on the upper surface of the main tank body, grooves arranged on two sides of the main tank body and a guide rail plate arranged on the inner wall of the main tank body, the main tank body is communicated with the bottom tank through the strip-shaped groove, the main tank body is communicated with the top tank through the perforation and the communication grid, and the displacement mechanism is connected with the top tank through the perforation.

Further, the displacement mechanism comprises a placing plate arranged inside the main box body, guide blocks fixedly arranged at two ends of the placing plate, a stretching pipe arranged on the upper surface of the placing plate, and main joint plates arranged at two ends of the stretching pipe, wherein one end of the stretching pipe is connected with the placing plate through the main joint plates, a stretching spring is further arranged between the two groups of main joint plates, and the other end of the stretching pipe is connected with the top box.

Further, the top box comprises a top hole arranged on the upper surface of the top box, a storage box arranged at the upper end of the top box, and an electronic valve pipe arranged on the inner wall of the storage box, wherein the electronic valve pipe is communicated with the stretching pipe.

Furthermore, the bottom box comprises a convex block arranged on the upper surface of the bottom box and a connecting hole arranged on the outer surface of the bottom box, the bottom box is connected with the main box body through the convex block, the bottom box is communicated with the main box body through the connecting hole, and a refrigerating mechanism is arranged in the bottom box.

Further, refrigerating mechanism is including setting up the disc in the bottom half, sets up the circular arc groove at the disc upper surface, sets up the branch pipe in circular arc inslot portion to and set up the external pipe in the branch pipe upper end, external pipe is linked together with external air pump, the inside in circular arc groove still is provided with the locating lever, the both sides of locating lever all are provided with flexible return bend, the branch pipe is provided with two sets ofly, two sets of branch pipes all are connected with the locating lever through flexible return bend, the branch pipe is through flexible return bend and circular arc groove swing joint.

Furthermore, the refrigeration mechanism further comprises an inner box arranged inside the bottom box, an external interface arranged at the upper end of the inner box and a refrigerator arranged inside the inner box, the external interface comprises a sealing plate arranged inside the external interface, an electric push rod arranged on one side of the sealing plate and a short pipe arranged on one side of the external interface, one end of the electric push rod is connected with the short pipe, and the sealing plate is movably connected with the external interface through the electric push rod.

Further, the inside of detecting element A is provided with humidity detection module A, temperature detection module A and processing module A, detecting element B's inside is provided with humidity detection module B, temperature detection module B and processing module B, humidity detection module A, equal signal connection between temperature detection module A and the processing module A, humidity detection module B, equal signal connection between temperature detection module B and the processing module B, the inside of main box still is provided with the operation component, the inside of operation component is provided with contrast module and signal and receives the module, processing module A and processing module B and operation component signal connection, contrast module and electronic valve pipe signal connection, temperature detection module A and temperature detection module B receive the module signal with the signal and connect module signal connection.

Furthermore, the rotating seat and the induction plate are in signal connection with the signal receiving and sending module.

The invention provides a communication case with a temperature automatic energy-saving regulation function, one side of a main case body is provided with a heat dissipation groove, the inner wall of the heat dissipation groove is provided with a heat dissipation hole, the interior of the heat dissipation groove is provided with a separation component, the heat dissipation hole is communicated with the main case body, the interior of the heat dissipation groove is provided with a movable rod, the outer surface of the movable rod is provided with a separation plate, two ends of the movable rod are provided with rotary seats, the movable rod is connected with the heat dissipation groove through the rotary seats, one side of the separation plate is provided with a plate groove, the interior of the plate groove is provided with a magnetic locking block and a primary spring, the magnetic locking block is connected with the plate groove through the primary spring, the interior of the heat dissipation groove is provided with a butt joint groove, the interior of the butt joint groove is provided with an electromagnetic block and an induction plate, one side of the electromagnetic block is provided with a secondary spring, the electromagnetic block is connected with the induction plate through the secondary spring, the electromagnetic block is magnetically connected with the magnetic locking block and is arranged in the same horizontal plane, the electromagnetism piece is connected with external power through the tablet, when the main tank body need dispel the heat, take the magnetism the same with the magnetism locking piece on attaching the electromagnetism piece, thereby produce the repulsion, make the magnetism locking piece slowly extrude one-level spring, one end up to the magnetism locking piece breaks away from the butt joint groove, utilize the rotation of roating seat to drive the baffler simultaneously, thereby realize the purpose that the louvre exposes, realize the radiating effect, in the same way, after the heat dissipation finishes, take the magnetism opposite with the magnetism locking piece on attaching the electromagnetism piece again, thereby the electromagnetism piece inhales mutually because of magnetism is opposite with the magnetism locking piece, realize the closed purpose of baffler, the louvre shields, dust in the outside air is difficult to enter into the main tank body in, thereby realize holistic dustproof and radiating conversion, indirectness improves holistic dustproof and radiating effect.

Drawings

FIG. 1 is a schematic view of the overall structure of a communication cabinet with an automatic temperature regulation function;

FIG. 2 is a schematic structural diagram of a main box of a communication chassis with an automatic temperature regulation function;

FIG. 3 is a schematic view of the structure of the bottom case of the communication case with the automatic temperature regulation function;

FIG. 4 is a schematic structural diagram of a communication chassis top box with an automatic temperature energy-saving regulation function according to the present invention;

FIG. 5 is a schematic structural diagram of a communication cabinet refrigeration mechanism with an automatic temperature regulation function;

FIG. 6 is a schematic structural diagram of a blocking assembly of a communication chassis with an automatic temperature regulation function;

FIG. 7 is a schematic structural diagram of a displacement mechanism of a communication chassis with an automatic temperature regulation function;

FIG. 8 is a schematic view of a connection structure between a magnetic lock block and an electromagnetic block of a communication chassis with an automatic temperature regulation function;

FIG. 9 is a block diagram of the working procedures of the detecting element B and the detecting element A of the communication case with the automatic temperature regulation function;

fig. 10 is a block diagram of the working procedure of the rotating base and the induction plate of the communication case with the function of automatic temperature regulation and control.

In the figure: 1. a main box body; 11. a strip-shaped groove; 12. perforating; 13. a groove; 14. a communication gate; 15. a guide rail plate; 2. a bottom box; 21. a bump; 22. a lead hole is connected; 3. a top box; 31. a top hole; 32. a storage box; 33. an electronic valve tube; 4. a displacement mechanism; 41. placing the plate; 42. a guide block; 43. stretching the tube; 44. a primary connecting plate; 45. an extension spring; 5. a heat dissipation mechanism; 51. a heat sink; 511. a butt joint groove; 512. an electromagnetic block; 513. a secondary spring; 514. an induction plate; 52. heat dissipation holes; 53. a barrier assembly; 531. a barrier plate; 532. a movable rod; 533. a rotating base; 534. a plate groove; 535. a magnetic locking block; 536. a primary spring; 6. a detection element B; 61. a humidity detection module B; 62. a temperature detection module B; 63. a processing module B; 7. a detection element A; 71. a humidity detection module A; 72. a temperature detection module A; 73. a processing module A; 8. a refrigeration mechanism; 81. a disc; 82. an arc groove; 83. a branch pipe; 84. an external connection pipe; 85. positioning a rod; 86. a telescopic bent pipe; 87. an inner box; 88. an external interface; 881. a sealing plate; 882. an electric push rod; 883. a short pipe; 89. a refrigerator; 9. an operating element; 91. a comparison module; 92. and a signal receiving and sending module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, a communication cabinet with a temperature automatic energy-saving regulation function comprises a main cabinet 1, a bottom cabinet 2 arranged at the lower end of the main cabinet 1, and a top cabinet 3 arranged at the upper end of the main cabinet 1, wherein the main cabinet 1 comprises a displacement mechanism 4 arranged inside the main cabinet 1, a heat dissipation mechanism 5 arranged at one side of the main cabinet 1, and a detection element a7 and a detection element B6 arranged inside the main cabinet 1, and the detection element a7 and the detection element B6 are respectively arranged at the upper and lower ends inside the main cabinet 1.

Referring to fig. 2 and 6, the heat dissipation mechanism 5 includes a heat dissipation groove 51 disposed on one side of the main box 1, a heat dissipation hole 52 disposed on an inner wall of the heat dissipation groove 51, and a blocking component 53 disposed inside the heat dissipation groove 51, the heat dissipation hole 52 is communicated with the main box 1, the blocking component 53 includes a movable rod 532 disposed inside the heat dissipation groove 51, a blocking plate 531 disposed on an outer surface of the movable rod 532, and rotating seats 533 disposed at two ends of the movable rod 532, the movable rod 532 is connected with the heat dissipation groove 51 through the rotating seats 533, one side of the blocking plate 531 is provided with a plate groove 534, a magnetic lock block 535 and a first-level spring 536 are disposed inside the plate groove 534, and the magnetic lock block 535 is connected with the plate groove 534 through the first-level spring 536.

Referring to fig. 8, the heat sink 51 includes a docking slot 511 disposed inside the heat sink 51, an electromagnetic block 512 and an induction plate 514 disposed inside the docking slot 511, and a secondary spring 513 disposed on one side of the electromagnetic block 512, the electromagnetic block 512 is connected to the induction plate 514 through the secondary spring 513, the electromagnetic block 512 is magnetically connected to the magnetic lock block 535 and disposed in the same horizontal plane, the electromagnetic block 512 is connected to an external power source through the induction plate 514, when the main cabinet 1 needs to dissipate heat, the electromagnetic block 512 is attached with the same magnetism as the magnetic lock block 535, so as to generate a repulsive force, so that the magnetic lock block 535 slowly presses the primary spring 536 until one end of the magnetic lock block 535 is detached from the docking slot 511, and the blocking plate 531 is driven by the rotation of the rotary base 533, so as to achieve the purpose of exposing the 52, and achieve the heat dissipation effect, and after heat dissipation is completed, the electromagnetic block 512 is attached with the opposite magnetism to the magnetic lock block 535, therefore, the electromagnetic block 512 and the magnetic lock block 535 are attracted due to the opposite magnetism, the purpose of closing the barrier plate 531 is achieved, the heat dissipation holes 52 are shielded, and dust in the outside air is difficult to enter the main box body 1, so that the whole dustproof and heat dissipation conversion is achieved, and the whole dustproof and heat dissipation effect is improved indirectly.

Referring to fig. 2, the main tank 1 includes a strip groove 11 formed in the bottom of the main tank 1, a perforation 12 and a communication grid 14 formed on the upper surface of the main tank 1, grooves 13 formed in both sides of the main tank 1, and a guide rail plate 15 formed on the inner wall of the main tank 1, the main tank 1 is communicated with the bottom tank 2 through the strip groove 11, the main tank 1 is communicated with the top tank 3 through the perforation 12 and the communication grid 14, and the displacement mechanism 4 is connected with the top tank 3 through the perforation 12.

Referring to fig. 4 and 7, the displacement mechanism 4 includes a placing plate 41 disposed inside the main body 1, guide blocks 42 fixedly installed at both ends of the placing plate 41, a stretching pipe 43 disposed on an upper surface of the placing plate 41, and main connection plates 44 disposed at both ends of the stretching pipe 43, one end of the stretching pipe 43 is connected to the placing plate 41 through the main connection plates 44, a stretching spring 45 is further disposed between the two sets of main connection plates 44, the other end of the stretching pipe 43 is connected to the top case 3, the top case 3 includes a top hole 31 disposed on an upper surface of the top case 3, a storage case 32 disposed at an upper end of the top case 3, and an electronic valve pipe 33 disposed on an inner wall of the storage case 32, the electronic valve pipe 33 is communicated with the stretching pipe 43, temperatures detected by a temperature detection module a72 and a temperature detection module B62 are compared by a comparison module 91, a lower temperature side is compared, when the temperature at the detection element a7 is lower, when the electronic valve tube 33 is opened, water flow enters the stretching tube 43, the stretching spring 45 is stretched, so that the placing plate 41 moves downwards, the ambient temperature of the electronic element on the placing plate 41 is reduced, the service life of the electronic element is prolonged, and conversely, when the temperature of the detecting element B6 is low, the water in the stretching tube 43 is discharged, the placing plate 41 moves upwards, so that the purpose of protecting the electronic element according to local conditions is achieved.

Referring to fig. 3 and 5, the bottom case 2 includes a protrusion 21 disposed on an upper surface of the bottom case 2 and a receiving hole 22 disposed on an outer surface of the bottom case 2, the bottom case 2 is connected to the main case 1 through the protrusion 21, the bottom case 2 is connected to the main case 1 through the receiving hole 22, a refrigeration mechanism 8 is disposed inside the bottom case 2, the refrigeration mechanism 8 includes a disc 81 disposed at a bottom of the bottom case 2, an arc groove 82 disposed on an upper surface of the disc 81, a branch pipe 83 disposed inside the arc groove 82, and an external pipe 84 disposed at an upper end of the branch pipe 83, the external pipe 84 is connected to an external air pump, a positioning rod 85 is further disposed inside the arc groove 82, two sets of telescopic elbows 86 are disposed on both sides of the positioning rod 85, the branch pipes 83 are disposed, the two sets of branch pipes 83 are connected to the positioning rod 85 through the telescopic elbows 86, the branch pipes 83 are movably connected to the arc groove 82 through the telescopic elbows 86, the refrigeration mechanism 8 further includes an inner case 87 disposed inside the bottom case 2, an external port 88 provided at an upper end of the inner case 87, and a refrigerator 89 provided inside the inner case 87, the external port 88 including a sealing plate 881 provided inside the external port 88, an electric push rod 882 provided at one side of the sealing plate 881, and a short tube 883 arranged at one side of the external interface 88, one end of an electric push rod 882 is connected with the short tube 883, a sealing plate 881 is movably connected with the external interface 88 through the electric push rod 882, two thirds of the mixed solution of water and rock salt is filled in the inner tank 87, and the mixed solution is frozen by the refrigerator 89, meanwhile, the external connection pipe 84 is connected with an external air pump, the introduced air flow blows to the frozen mixed solution, when the frozen mixed solution melts, it cools the surrounding air, through the effect of heat transfer, thereby realizing the effect of reducing the internal temperature of the main box body 1, and the freezing point of water can be reduced by salt, so that the temperature of the ice formed is lower.

Referring to fig. 9 and 10, a humidity detection module a71, a temperature detection module a72 and a processing module a73 are disposed inside a detection element a7, a humidity detection module B61, a temperature detection module B62 and a processing module B63 are disposed inside a detection element B6, the humidity detection module a71, the temperature detection module a72 and the processing module a73 are all in signal connection, the humidity detection module B61, the temperature detection module B62 and the processing module B63 are all in signal connection, an operation element 9 is further disposed inside a main box 1, a comparison module 91 and a signal receiving and sending module 92 are disposed inside the operation element 9, the processing module a73 and the processing module B63 are in signal connection with the operation element 9, the comparison module 91 is in signal connection with an electronic valve tube 33, the temperature detection module a72 and the temperature detection module B62 are in signal connection with a signal receiving and sending module 92, a rotating seat 533 and an induction plate 514 are both in signal connection with the signal receiving and sending module 92, carry out temperature detection in to main tank 1 through temperature detect module A72 and temperature detect module B62, when the temperature is higher, send out module 92 with signal transmission, rethread signal send out module 92 with signal instruction transport for roating seat 533, make roating seat 533 slowly begin to rotate, meanwhile, tablet 514 also can let in corresponding electric current with electromagnetism piece 512, make baffler 531 open, realize the radiating effect, make whole process automation degree higher, need not the manual work, the convenience and the real-time of overall operation have been improved.

The working principle is as follows: when the main box 1 needs to dissipate heat, the electromagnetic block 512 is attached with the same magnetism as the magnetic lock block 535, so as to generate repulsion force, the magnetic lock block 535 slowly presses the primary spring 536 until one end of the magnetic lock block 535 is separated from the butt-joint groove 511, meanwhile, the rotation of the rotary seat 533 is utilized to drive the baffle plate 531, so as to achieve the purpose of exposing the heat dissipation hole 52, thereby achieving the heat dissipation effect, similarly, after the heat dissipation is finished, the electromagnetic block 512 is attached with the opposite magnetism to the magnetic lock block 535, so that the electromagnetic block 512 and the magnetic lock block 535 are attracted due to the opposite magnetism, so as to achieve the purpose of closing the baffle plate 531, the heat dissipation hole 52 is shielded, dust in the outside air is difficult to enter the main box 1, thereby achieving the whole conversion of dust prevention and heat dissipation, and the temperatures detected by the temperature detection module a72 and the temperature detection module B62 are compared by the comparison module 91, so as to compare out the lower temperature, when the temperature at the detecting element a7 is low, the electronic valve tube 33 is opened, water flow enters the stretching tube 43, the stretching spring 45 is stretched, and the placing plate 41 moves downwards, and conversely, when the temperature at the detecting element B6 is low, water in the stretching tube 43 is discharged, and the placing plate 41 moves upwards, so that the purpose of protecting the electronic elements according to the circumstances is achieved.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides a communication case with a temperature automatic energy-saving regulation function, one side of a main case body is provided with a heat dissipation groove, the inner wall of the heat dissipation groove is provided with a heat dissipation hole, the interior of the heat dissipation groove is provided with a separation component, the heat dissipation hole is communicated with the main case body, the interior of the heat dissipation groove is provided with a movable rod, the outer surface of the movable rod is provided with a separation plate, two ends of the movable rod are provided with rotary seats, the movable rod is connected with the heat dissipation groove through the rotary seats, one side of the separation plate is provided with a plate groove, the interior of the plate groove is provided with a magnetic locking block and a primary spring, the magnetic locking block is connected with the plate groove through the primary spring, the interior of the heat dissipation groove is provided with a butt joint groove, the interior of the butt joint groove is provided with an electromagnetic block and an induction plate, one side of the electromagnetic block is provided with a secondary spring, the electromagnetic block is connected with the induction plate through the secondary spring, the electromagnetic block is magnetically connected with the magnetic locking block and is arranged in the same horizontal plane, the electromagnetism piece is connected with external power through the tablet, when the main tank body need dispel the heat, take the magnetism the same with the magnetism locking piece on attaching the electromagnetism piece, thereby produce the repulsion, make the magnetism locking piece slowly extrude one-level spring, one end up to the magnetism locking piece breaks away from the butt joint groove, utilize the rotation of roating seat to drive the baffler simultaneously, thereby realize the purpose that the louvre exposes, realize the radiating effect, in the same way, after the heat dissipation finishes, take the magnetism opposite with the magnetism locking piece on attaching the electromagnetism piece again, thereby the electromagnetism piece inhales mutually because of magnetism is opposite with the magnetism locking piece, realize the closed purpose of baffler, the louvre shields, dust in the outside air is difficult to enter into the main tank body in, thereby realize holistic dustproof and radiating conversion, indirectness improves holistic dustproof and radiating effect.

2. The invention provides a communication case with a temperature automatic energy-saving regulation function, wherein a humidity detection module A, a temperature detection module A and a processing module A are arranged in a detection element A, a humidity detection module B, a temperature detection module B and a processing module B are arranged in a detection element B, the humidity detection module A, the temperature detection module A and the processing module A are in signal connection, the humidity detection module B, the temperature detection module B and the processing module B are in signal connection, an operation element is also arranged in a main case body, a comparison module and a signal receiving and sending module are arranged in the operation element, the temperature detection module A and the temperature detection module B are in signal connection with the signal receiving and sending module, a rotary seat and a corresponding plate are in signal connection with the signal receiving and sending module, and the temperature in the main case body is detected through the temperature detection module A and the temperature detection module B, when the temperature is higher, send out the module with signal transmission for the signal, rethread signal send out the module and carry signal instruction for the roating seat slowly begins to rotate, and meanwhile, the tablet also can let in corresponding electric current with the electromagnetism piece, makes the baffler open, realizes the radiating effect, makes whole process automation degree higher, need not the manual work, has improved the convenience and the real-time of whole operation.

3. The invention provides a communication case with a temperature automatic energy-saving regulation function, wherein a placing plate is arranged in a main case body, guide blocks are arranged at two ends of the placing plate, a stretching pipe is arranged on the upper surface of the placing plate, main connecting plates are arranged at two ends of the stretching pipe, one end of the stretching pipe is connected with the placing plate through the main connecting plates, a stretching spring is further arranged between the two groups of main connecting plates, the other end of the stretching pipe is connected with a top case, a top hole is arranged on the upper surface of the top case, a storage case is arranged at the upper end of the top case, an electronic valve pipe is arranged on the inner wall of the storage case, the electronic valve pipe is communicated with the stretching pipe, a detection element A and a detection element B are respectively arranged at the lower end and the upper end in the main case body, a water source is injected into the storage case, and a temperature detection module A and a temperature detection module B in the detection element A and the detection element B respectively detect the temperatures at the lower end and the upper end in the main case body, the specificity of temperature detection is improved, meanwhile, the inside of the main box body is also provided with an operation element, the inside of the operation element is provided with a comparison module and a signal receiving and sending module, a processing module A and a processing module B are in signal connection with the operation element, the comparison module is in signal connection with the electronic valve tube, the temperatures detected by the temperature detection module A and the temperature detection module B are compared by the comparison module, when the temperature of the detection element A is lower, the electronic valve tube is opened, water flow enters the stretching tube, the stretching spring is stretched, thereby the placing board moves downwards, the environmental temperature suffered by the electronic element on the placing board is reduced, the service life of the electronic element is prolonged, on the contrary, when the temperature of the detection element B is lower, the water in the stretching pipe is discharged, and the placing plate moves upwards, so that the purpose of protecting the electronic element according to local conditions is achieved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a communication machine case with automatic energy-conserving regulation and control function of temperature, includes main tank body (1), sets up in bottom case (2) of main tank body (1) lower extreme to and set up top case (3) in main tank body (1) upper end, its characterized in that: the main box body (1) comprises a displacement mechanism (4) arranged inside the main box body (1), a heat dissipation mechanism (5) arranged on one side of the main box body (1), and a detection element A (7) and a detection element B (6) arranged inside the main box body (1), wherein the detection element A (7) and the detection element B (6) are respectively arranged at the lower end and the upper end inside the main box body (1);

heat dissipation mechanism (5) is including setting up radiating groove (51) in main tank body (1) one side, louvre (52) of setting on radiating groove (51) inner wall, and setting up separation subassembly (53) in radiating groove (51) inside, louvre (52) are linked together with main tank body (1), separation subassembly (53) are including setting up movable rod (532) inside radiating groove (51), set up baffler (531) on movable rod (532) surface, and roating seat (533) of setting at movable rod (532) both ends, movable rod (532) are connected with radiating groove (51) through roating seat (533), one side of baffler (531) is provided with board groove (534), the inside of board groove (534) is provided with magnetic locking piece (535) and one-level spring (536), magnetic locking piece (535) are connected with board groove (534) through one-level spring (536).

2. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 1, characterized in that: radiating groove (51) are including setting up at inside butt joint groove (511) of radiating groove (51), set up at inside electromagnetic block (512) and the tablet (514) of butt joint groove (511), and set up second grade spring (513) in electromagnetic block (512) one side, electromagnetic block (512) are connected with tablet (514) through second grade spring (513), electromagnetic block (512) are connected with magnetic locking piece (535) magnetism, and set up in same horizontal plane, electromagnetic block (512) are connected with external power supply through tablet (514).

3. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 1, characterized in that: the main box body (1) comprises a strip-shaped groove (11) arranged at the bottom of the main box body (1), a perforation (12) and a communication grid (14) are arranged on the upper surface of the main box body (1), grooves (13) are arranged on two sides of the main box body (1), and a guide rail plate (15) is arranged on the inner wall of the main box body (1), the main box body (1) is communicated with the bottom box (2) through the strip-shaped groove (11), the main box body (1) is communicated with the top box (3) through the perforation (12) and the communication grid (14), and the displacement mechanism (4) is connected with the top box (3) through the perforation (12).

4. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 1, characterized in that: the displacement mechanism (4) comprises a placing plate (41) arranged inside the main box body (1), guide blocks (42) fixedly installed at two ends of the placing plate (41), stretching pipes (43) arranged on the upper surface of the placing plate (41), and main joint plates (44) arranged at two ends of each stretching pipe (43), one ends of the stretching pipes (43) are connected with the placing plate (41) through the main joint plates (44), stretching springs (45) are further arranged between the two groups of main joint plates (44), and the other ends of the stretching pipes (43) are connected with the top box (3).

5. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 4, characterized in that: the top box (3) comprises a top hole (31) arranged on the upper surface of the top box (3), a storage box (32) arranged at the upper end of the top box (3), and an electronic valve pipe (33) arranged on the inner wall of the storage box (32), wherein the electronic valve pipe (33) is communicated with the stretching pipe (43).

6. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 1, characterized in that: the bottom box (2) comprises a convex block (21) arranged on the upper surface of the bottom box (2) and a lead connecting hole (22) formed in the outer surface of the bottom box (2), the bottom box (2) is connected with the main box body (1) through the convex block (21), the bottom box (2) is communicated with the main box body (1) through the lead connecting hole (22), and a refrigerating mechanism (8) is arranged inside the bottom box (2).

7. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 6, characterized in that: refrigerating mechanism (8) are including setting up disc (81) in bottom case (2) bottom, set up circular arc groove (82) at disc (81) upper surface, set up branch pipe (83) in circular arc groove (82) inside, and set up external pipe (84) in branch pipe (83) upper end, external pipe (84) are linked together with external air pump, the inside of circular arc groove (82) still is provided with locating lever (85), the both sides of locating lever (85) all are provided with flexible return bend (86), branch pipe (83) are provided with two sets ofly, two sets of branch pipe (83) all are connected with locating lever (85) through flexible return bend (86), branch pipe (83) are through flexible return bend (86) and circular arc groove (82) swing joint.

8. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 1, characterized in that: refrigeration mechanism (8) are still including setting up inner box (87) inside bottom case (2), set up external tapping (88) in inner box (87) upper end, and set up refrigerator (89) inside inner box (87), external tapping (88) are including setting up at inside closing plate (881) of external tapping (88), set up electric putter (882) in closing plate (881) one side, and set up nozzle stub (883) in external tapping (88) one side, the one end of electric putter (882) is connected with nozzle stub (883), closing plate (881) are through electric putter (882) and external tapping (88) swing joint.

9. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 5, characterized in that: a humidity detection module A (71), a temperature detection module A (72) and a processing module A (73) are arranged in the detection element A (7), a humidity detection module B (61), a temperature detection module B (62) and a processing module B (63) are arranged in the detection element B (6), the humidity detection module A (71), the temperature detection module A (72) and the processing module A (73) are in signal connection, the humidity detection module B (61), the temperature detection module B (62) and the processing module B (63) are in signal connection, an operation element (9) is further arranged in the main box body (1), a comparison module (91) and a signal receiving and sending module (92) are arranged in the operation element (9), the processing module A (73) and the processing module B (63) are in signal connection with the operation element (9), the comparison module (91) is in signal connection with the electronic valve pipe (33), the temperature detection module A (72) and the temperature detection module B (62) are in signal connection with the signal receiving and sending module (92).

10. The communication cabinet with the function of automatic temperature energy-saving regulation and control of claim 5, characterized in that: the rotating seat (533) and the induction plate (514) are in signal connection with the signal receiving and sending module (92).

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