CN115015588B - Detection device of electric automatic power supply system - Google Patents

Abstract

The invention discloses a detection device of an electric automatic power supply system, which comprises a detection body, wherein the upper end of the detection body is provided with a display screen and a plurality of operation switches of a plurality of interface boxes, an equipment cavity is arranged in the detection body, two sides of the detection body are provided with heat dissipation openings communicated with the equipment cavity, two sides of the detection body are provided with mounting boxes, the two mounting boxes are provided with through grooves communicated with the corresponding heat dissipation openings, the inner top of the equipment cavity is provided with a temperature detector, the two mounting boxes are provided with mounting cavities, and the two mounting cavities are internally provided with a control heat dissipation mechanism. The device can select proper heat dissipation mode according to the temperature size of inside through setting up temperature detector and control heat dissipation mechanism, the effectual waste that reduces the energy to when the device does not use, a plurality of pivoted plates are vertical state, are close to sealing up logical groove, have reduced the entering of dust, have improved the life of device.

Description

Detection device of electric automatic power supply system

Technical Field

The invention relates to the technical field of power supply detection equipment, in particular to a detection device of an electric automatic power supply system.

Background

The power supply system is a system which is composed of a power supply system and a power transmission and distribution system and is used for generating electric energy and supplying the electric energy to electric equipment, and the power supply system can be roughly divided into three types TN, IT and TT, wherein the TN system is further divided into three expression forms TN-C, TN-S and TN-C-S;

in an electric automation power supply system, detection of a circuit becomes a key of daily maintenance, a part of a detection link of a wire is detected, in the detection process, the conductive effect of a wire is detected by using detection equipment, the load degree of the wire is sometimes detected, more heat is generated by an electronic element in the detection equipment, the service life of the detection equipment is influenced if heat conduction is not timely carried out, but the conventional equipment usually adopts a cooling fan to dissipate heat, when the equipment carries out some simple detection operations, the heat productivity is not high, the consumption of unnecessary energy sources is increased by using the cooling fan, when the load detection is carried out, the heat is more, if overload detection is carried out, the heat dissipation capacity of the cooling fan is difficult to meet the heat dissipation requirement of the equipment, and the service life of the detection equipment is easily influenced because of more heat accumulation in an equipment cavity.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides an electric automation power supply system detection device.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides an electric automatization power supply system detection device, includes detects the body, the upper end that detects the body is equipped with a display screen, a plurality of interface box a plurality of operation switches, detect and be equipped with the equipment chamber in the body, detect the both sides of body and be equipped with the thermovent that is linked together with the equipment chamber, install the mounting box in the both sides of detecting the body, two all be equipped with on the mounting box and lead to the groove and be linked together with the thermovent that corresponds, temperature detector is installed at the interior top in equipment chamber;

two all be equipped with the installation cavity in the mounting box, two all be equipped with control cooling mechanism in the installation cavity, control cooling mechanism is including setting up a plurality of rotating plates in two logical inslot, every the both sides of rotating plate all rotate with corresponding logical groove lateral wall through the rotation pipe and be connected, every the rotation pipe all extends to the installation cavity that corresponds and rotates with the installation cavity inner wall that corresponds to be connected, two the electro-magnet is all installed at the interior top in installation cavity, two equal sliding connection in the installation cavity has the magnetic plate, two the electro-magnet all passes through spring and corresponds magnetic plate elastic connection, the lower extreme fixedly connected with pinion rack of magnetic plate, every all fixed cover is equipped with the gear on the rotation pipe, every gear and the tooth plate intermeshing that corresponds, two the upper and lower inner wall in installation cavity all fixedly connected with two guide bars, two the guide bar all runs through corresponding magnetic plate and tooth plate.

Preferably, the first triggering mechanisms are arranged in the two mounting cavities, each first triggering mechanism comprises a first conductive sheet embedded in the left and right inner walls of the two mounting cavities, and the two radiating ports are provided with a plurality of radiating fans.

Preferably, the lower extreme fixedly connected with water-cooling box of detection body, be equipped with the water-cooling chamber in the water-cooling box, four bases are installed to the lower extreme of water-cooling box, be equipped with the condensate in the water-cooling box.

Preferably, two the installation intracavity all is equipped with second trigger mechanism, two the second trigger mechanism is all including inlaying the second conducting strip of establishing the inner wall about two installation chambeies, the snakelike cooling tube is installed to the equipment intracavity, miniature water pump is installed on the right side of detecting the body, miniature water pump's inlet tube extends to the water-cooling intracavity, miniature water pump's outlet pipe links to each other with taking photograph snakelike cooling tube.

Preferably, two the water conservancy diversion box is all installed to the lateral wall about the mounting box, every all be equipped with auxiliary chamber in the water conservancy diversion box, every the swivelling joint is all extended to corresponding auxiliary intracavity and installed to the swivelling joint, every auxiliary intracavity all is equipped with the connecting pipe, every all install a plurality of bleeder on the connecting pipe, every the bleeder all links to each other with corresponding swivelling joint, every the connecting pipe links to each other with the snakelike cooling tube, every the inside of rotor plate is cavity, every the material of rotor plate is the heat dissipation material.

Preferably, the lower end of the water cooling box is provided with a plurality of radiating fins, the rotation angle of each rotating plate is smaller than ninety degrees, each base is cylindrical, and the lower end of each base is provided with a shock pad.

Compared with the prior art, the device has the advantages that:

according to the invention, the heat dissipation control mechanism is arranged, when the device is used for detection operation, certain temperature is generated by the internal electronic element, but the temperature is not high, the temperature detector detects the temperature change at the moment, when the temperature is higher, the rotation angle of the rotating plate is larger, the ventilation quantity is more, the heat dissipation effect is increased, when the device is not used, the temperature detector detects the temperature to be lower, the rotating plates are in a vertical state at the moment, the interval between every two rotating plates is smaller, and the dust entering can be reduced when the device is not used.

According to the invention, through the structures such as the first trigger mechanism and the like, when the temperature in the equipment cavity is increased by a certain value, the first trigger mechanism drives the cooling fan to rotate at the moment, so that the temperature in the equipment cavity is actively cooled, and the temperature in the equipment cavity is ensured to be stable in a proper range.

According to the invention, through arranging the structures such as the second trigger mechanism and the like, when the load of the device is large, the heat dissipation requirement cannot be met through the simple heat dissipation fan, the second trigger mechanism can be started, the water cooling heat dissipation is carried out through the miniature water pump, the heat dissipation efficiency is improved, and the condensate liquid can be quickly transferred to the outside through the plurality of rotating plates and the heat dissipation fan, so that the relatively efficient heat dissipation can be realized.

Drawings

FIG. 1 is a schematic diagram of a detection device of an electrical automatic power supply system according to the present invention;

FIG. 2 is a perspective cross-sectional view of FIG. 1;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A;

FIG. 4 is a side cross-sectional view of FIG. 1;

fig. 5 is an internal structural view of the auxiliary chamber.

In the figure: 1 detection body, 2 water-cooling box, 3 base, 4 mounting box, 5 miniature water pump, 6 logical groove, 7 rotor plate, 8 radiator fan, 9 water conservancy diversion boxes, 10 installation cavity, 11 guide bar, 12 springs, 13 electro-magnet, 14 magnetic sheet, 15 pinion rack, 16 rotor tube, 17 gear, 19 water-cooling chamber, 20 equipment chamber, 21 snakelike cooling tube, 22 first conducting strip, 23 second conducting strip, 24 display screen, 25 operation switch, 26 interface, 27 auxiliary chamber, 28 rotary joint, 29 connecting pipe, 30 bleeder, 31 fin.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-5, an electric automation power supply system detection device comprises a detection body 1, wherein a display screen 24 and a plurality of interface 26 boxes are arranged at the upper end of the detection body 1, a plurality of operation switches 25 are arranged in the detection body 1, equipment cavities 20 are arranged on two sides of the detection body 1, radiating ports communicated with the equipment cavities 20 are arranged on two sides of the detection body 1, mounting boxes 4 are arranged on two sides of the detection body 1, through grooves 6 are respectively arranged on the two mounting boxes 4 and communicated with the corresponding radiating ports, a temperature detector is arranged at the inner top of the equipment cavities 20, and can monitor the temperature in the equipment cavities 20 in real time and convert detected temperature values into the magnitude of currents led by two electromagnets 13 through a singlechip and an AD (analog-digital) converter;

the two mounting boxes 4 are internally provided with mounting cavities 10, the two mounting cavities 10 are internally provided with a heat dissipation control mechanism, the heat dissipation control mechanism comprises a plurality of rotating plates 7 arranged in two through grooves 6, two sides of each rotating plate 7 are rotationally connected with the side walls of the corresponding through grooves 6 through rotating pipes 16, each rotating pipe 16 extends into the corresponding mounting cavity 10 and is rotationally connected with the inner walls of the corresponding mounting cavities 10, the inner tops of the two mounting cavities 10 are respectively provided with an electromagnet 13, the two mounting cavities 10 are respectively and slidably connected with a magnetic plate 14, the two electromagnets 13 are respectively and elastically connected with the corresponding magnetic plates 14 through springs 12, at the initial positions of the magnetic plates 14, each rotating plate 7 is in a vertical state, the distance between the rotating plates is smaller, the rotating angle of each rotating plate 7 is smaller than eighty degrees, and dust enters the equipment cavity 20 when the device is not used;

after the electromagnet 13 is electrified, the same polarity of adjacent surfaces of the magnetic plate 14 repels, the larger the current amount flowing in by the electromagnet 13 is, the larger the moving amplitude of the magnetic plate 14 is, the lower end of the magnetic plate 14 is fixedly connected with the toothed plate 15, the toothed plate 15 is driven to move by the moving of the magnetic plate 14, each rotating pipe 16 is fixedly sleeved with a gear 17, each gear 17 is meshed with the corresponding toothed plate 15, the upper inner wall and the lower inner wall of each mounting cavity 10 are fixedly connected with two guide rods 11, the two guide rods 11 penetrate through the corresponding magnetic plate 14 and the toothed plate 15, the stable up-down movement of the magnetic plate 14 and the toothed plate 15 is ensured, and the toothed plate 15 moves downwards to drive each rotating plate 7 to synchronously rotate through the gears 17;

the first triggering mechanism is installed in each of the two installation cavities 10, and comprises first conductive plates 22 embedded in the left and right inner walls of the two installation cavities 10, and a plurality of cooling fans 8 are installed on each of the two cooling ports, when the temperature in the equipment cavity 20 continues to rise and the magnetic plate 14 moves to be in contact with the two first conductive plates 22, the cooling fans 8 are started, so that the cooling efficiency is improved;

the lower end of the detection body 1 is fixedly connected with a water cooling box 2, a water cooling cavity 19 is arranged in the water cooling box 2, four bases 3 are arranged at the lower end of the water cooling box 2, condensate is arranged in the water cooling box 2, a plurality of radiating fins 31 are arranged at the lower end of the water cooling box 2, heat can be radiated to electronic elements in the equipment cavity 20 through the water cooling box 2, each base 3 is cylindrical, a shock pad is arranged at the lower end of each base 3, and stability of the device in placement is improved;

the second triggering mechanisms are arranged in the two installation cavities 10 and comprise second conductive plates 23 embedded in the left and right inner walls of the two installation cavities 10, a snake-shaped radiating pipe 21 is arranged in the equipment cavity 20, a micro water pump 5 is arranged on the right side of the detection body 1, a water inlet pipe of the micro water pump 5 extends into the water cooling cavity 19, a water outlet pipe of the micro water pump 5 is connected with the snake-shaped radiating pipe 21, when the temperature is still rising, the magnetic plate 14 is contacted with the two second conductive plates 23 at the moment, the micro water pump 5 is started at the moment, condensate in the water cooling box 2 is led into the equipment cavity 20 through the micro water pump 5, and the heat dissipation efficiency is further improved;

wherein, the water conservancy diversion box 9 is all installed to the lateral wall about two installation boxes 4, all be equipped with auxiliary chamber 27 in every water conservancy diversion box 9, every rotation pipe 16 all extends to in the auxiliary chamber 27 that corresponds and installs rotary joint 28, all be equipped with connecting pipe 29 in every auxiliary chamber 27, all install a plurality of bleeder pipes 30 on every connecting pipe 29, every bleeder pipe 30 all links to each other with corresponding rotary joint 28, every connecting pipe 29 links to each other with snakelike cooling tube 21, the inside of every rotor plate 7 is cavity, the material of every rotor plate 7 is the heat dissipation material, miniature water pump 5 can lead in condensate on a plurality of rotor plates 7 through snakelike cooling tube 21, can accelerate the derivation of condensate internal heat through radiator fan 8, further improved the radiating efficiency, the device can also set up alarm mechanism, send the alarm when the temperature reaches the limit value, remind the staff, stop detecting operation.

When the temperature sensor is used, a connecting wire to be detected is connected with an interface 26 on the detection body 1, detection operation is carried out, normal detection operation is carried out, the heat productivity of equipment in the equipment cavity 20 is small, at the moment, a temperature detector can monitor the temperature in the equipment cavity 20 in real time, the detected temperature value is converted into the magnitude of current led by two electromagnets 13 through a singlechip and an AD converter, when the temperature is small, the corresponding magnetic plate 14 is driven to move downwards for a small distance, at the moment, the toothed plate 15 is driven to move downwards, and the rotating plate 7 is driven to rotate for a certain angle through a plurality of gears 17, so that the small heat dissipation requirement is met;

when the load detection is carried out on the device, more heat is generated by the electronic elements in the equipment cavity 20, at the moment, the magnetic plate 14 can continuously move downwards to be in contact with the first conducting plate 22, and the plurality of cooling fans 8 are started to form an air duct to actively dissipate heat;

when the overload detection is carried out on the device, the heating value of the electronic element in the equipment cavity 20 is large, at the moment, the magnetic plate 14 moves downwards to be in contact with the second conducting plate 23, the micro water pump 5 is started to carry out water cooling heat dissipation, condensate flows through the plurality of rotating plates 7, the heat dissipation efficiency is greatly improved, and the heat export efficiency is ensured;

the device can select proper heat dissipation mode according to the inside temperature size through setting up temperature detector and control heat dissipation mechanism, the effectual waste that reduces the energy to when the device does not use, a plurality of pivoted plates 7 are vertical state, are close to sealing up logical groove 6, have reduced the entering of dust, have improved the life of device.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides an electric automatization power supply system detection device, includes detects body (1), its characterized in that, the upper end of detecting body (1) is equipped with a display screen (24), a plurality of interface (26) and a plurality of operating switch (25), be equipped with equipment chamber (20) in detecting body (1), the both sides of detecting body (1) are equipped with the thermovent that is linked together with equipment chamber (20), install mounting box (4) in the both sides of detecting body (1), two all be equipped with logical groove (6) and be linked together with the thermovent that corresponds on mounting box (4), temperature detector is installed at the interior top in equipment chamber (20);

the two mounting boxes (4) are internally provided with mounting cavities (10), the two mounting cavities (10) are internally provided with control radiating mechanisms, each control radiating mechanism comprises a plurality of rotating plates (7) arranged in two through grooves (6), two sides of each rotating plate (7) are rotationally connected with the corresponding side wall of the corresponding through groove (6) through rotating pipes (16), each rotating pipe (16) extends into the corresponding mounting cavity (10) and is rotationally connected with the inner wall of the corresponding mounting cavity (10), the inner top of each mounting cavity (10) is provided with an electromagnet (13), the two mounting cavities (10) are internally provided with a magnetic plate (14), the two electromagnets (13) are elastically connected with the corresponding magnetic plate (14) through springs (12), the lower ends of the magnetic plates (14) are fixedly connected with toothed plates (15), gears (17) are fixedly sleeved on each rotating pipe (16), each gear (17) is rotationally connected with the corresponding inner wall of the corresponding mounting cavity (10), and the two guide rods (11) are fixedly connected with the two guide rods (11) which are meshed with the two guide rods (11) which are fixedly connected with the corresponding guide rods (11). The temperature detector can monitor the temperature in the equipment cavity (20) in real time, and converts the detected temperature value into the magnitude of current led in by the two electromagnets (13) through the singlechip and the AD converter; like poles repel adjacent surfaces of the magnetic plates (14) after the electromagnet (13) is electrified, the larger the current amount flowing in by the electromagnet (13) is, the larger the moving amplitude of the magnetic plates (14) is, the toothed plates (15) are driven to move by the moving of the magnetic plates (14), the two guide rods (11) penetrate through the corresponding magnetic plates (14) and the toothed plates (15), stable up-and-down movement of the magnetic plates (14) and the toothed plates (15) is guaranteed, and the toothed plates (15) can drive each rotating plate (7) to synchronously rotate through the plurality of gears (17).

2. An electric automatization power supply system detection device according to claim 1, characterized in that, a first trigger mechanism is installed in both of the installation cavities (10), the first trigger mechanism comprises a first conductive sheet (22) embedded in the left and right inner walls of both installation cavities (10), and a plurality of cooling fans (8) are installed on both of the cooling ports.

3. The detection device of the electric automatic power supply system according to claim 2, wherein the lower end of the detection body (1) is fixedly connected with a water cooling box (2), a water cooling cavity (19) is arranged in the water cooling box (2), four bases (3) are arranged at the lower end of the water cooling box (2), and condensate is arranged in the water cooling box (2).

4. An electric automatization power supply system detection device according to claim 3 characterized in that, two all be equipped with second trigger mechanism in installation cavity (10), two second trigger mechanism all including inlay second conducting strip (23) of establishing the inner wall about two installation cavity (10), install snakelike cooling tube (21) in equipment cavity (20), miniature water pump (5) are installed on the right side of detecting body (1), in the inlet tube of miniature water pump (5) extends to water-cooling chamber (19), the outlet pipe of miniature water pump (5) links to each other with taking a photograph snakelike cooling tube (21).

5. The electric automation power supply system detection device according to claim 4, wherein the left and right side walls of the mounting boxes (4) are respectively provided with a diversion box (9), each diversion box (9) is internally provided with an auxiliary cavity (27), each rotating pipe (16) is respectively extended into the corresponding auxiliary cavity (27) and is provided with a rotary joint (28), each auxiliary cavity (27) is internally provided with a connecting pipe (29), each connecting pipe (29) is provided with a plurality of branch pipes (30), each branch pipe (30) is connected with the corresponding rotary joint (28), each connecting pipe (29) is connected with a serpentine radiating pipe (21), the inside of each rotating plate (7) is hollow, and the material of each rotating plate (7) is a radiating material.

6. An electric automatization power supply system detection device according to claim 3, characterized in that the lower end of the water cooling box (2) is provided with a plurality of radiating fins (31), the rotation angle of each rotating plate (7) is smaller than eighty degrees, each base (3) is cylindrical, and the lower end of each base (3) is provided with a shock pad.