CN206865940U - A kind of Electromechanical Control heat abstractor - Google Patents

Abstract

The utility model discloses a kind of Electromechanical Control heat abstractor, including shell, the bottom of the outer casing inner wall is fixedly connected with apparatus body, the back side of the outer casing inner wall and the first fan is fixedly connected with the left of the apparatus body, the first power governor is provided with the top of first fan, the back side of outer casing inner wall and the second fan is fixedly connected with the top of the first fan, the second power governor is provided with the top of second fan, heat-conducting metal bar is connected with the left of second fan, the one end of heat-conducting metal bar away from the second fan is fixedly connected with thermally conductive sheet, the front of apparatus body and the first temperature sensor is fixedly connected with the right side of the thermally conductive sheet.The cooperation that the utility model passes through the first power governor, the second power governor, heat-conducting metal bar, thermally conductive sheet, the first temperature sensor and second temperature sensor, the problem of solving traditional heat-dissipating device can not targetedly be radiated, and the thermal efficiency that causes to disappear is low.

Description

A kind of Electromechanical Control heat abstractor

Technical field

Technical field of the electromechanical equipment is the utility model is related to, specially a kind of Electromechanical Control heat abstractor.

Background technology

Distribution box, control cabinet, switch cubicle, mass computing cabinet etc. are that the electromechanics being frequently seen in production and living activity is commonly used Equipment, these equipment can operationally produce substantial amounts of heat, for the normal operation of electromechanical equipment, ensure distribution box, control cabinet Etc. will not damage because of high temperature, generally it is required for installing cooling device additional on casing, existing cooling device has semiconductor system Cold and air-cooled two kinds, costly, versatility is low for semiconductor refrigeration radiating device price, and then power consumption is big for air cooling equipment, intelligence Change degree is low, causes the waste that electric energy is unnecessary；Therefore it provides one kind is simple and reasonable, easy to use, versatility is high, makes Low with cost, good in economic efficiency electromechanical equipment heat abstractor is necessary, Chinese utility model CN205812628U In propose a kind of electromechanical equipment heat abstractor, although the utility model intelligence degree is high, can reasonably utilize electric energy again, But the utility model can not targetedly be radiated in radiation processes, and electromechanical equipment is in the process of running, processor Temperature can be far above other devices, and precision instrument is easiest to damage because of heating, and traditional heat abstractor can not be carried out Targetedly radiate, the thermal efficiency that causes to disappear is low, therefore, a kind of it is proposed that Electromechanical Control heat abstractor.

Utility model content

The purpose of this utility model is to provide a kind of Electromechanical Control heat abstractor possess for easily being damaged because of heating Precision instrument radiated, the advantages of so as to improve radiating efficiency, solving traditional heat-dissipating device can not be carried out targetedly Radiating, the problem of thermal efficiency that causes to disappear is low.

To achieve the above object, the utility model provides following technical scheme：A kind of Electromechanical Control heat abstractor, including it is outer Shell, the bottom of the outer casing inner wall are fixedly connected with apparatus body, the back side of the outer casing inner wall and the left side for being located at apparatus body Side is fixedly connected with the first fan, and the first power governor, the back of the body of the outer casing inner wall are provided with the top of first fan Face and the second fan is fixedly connected with the top of the first fan, the second power adjusting is provided with the top of second fan Device, heat-conducting metal bar is connected with the left of second fan, the described one end of heat-conducting metal bar away from the second fan is consolidated Surely it is connected with thermally conductive sheet, the thermally conductive sheet is movably connected in the front of apparatus body, the front of the apparatus body and positioned at leading The first temperature sensor is fixedly connected with the right side of backing, second temperature sensing is fixedly connected with the top of the outer casing inner wall Device, the top of the outer casing inner wall and is fixedly connected with battery on the right side of the second temperature sensor, the battery Bottom is fixedly connected with control board, and the output end of the battery and the input of control board are unidirectionally electrically connected with, The input of the control board unidirectionally electrically connects with the output end of the first temperature sensor and second temperature sensor respectively Connect, the output end of the control board is unidirectionally electrical with the input of the first power governor and the second power governor respectively Connection, the output end of first power governor are unidirectionally electrically connected with the input of the first fan, and second power is adjusted The output end and the input of the second fan for saving device are unidirectionally electrically connected with.

Preferably, the first photovoltaic panel is fixedly connected with the top of the shell, is fixedly connected with the left of the shell Two photovoltaic panels, the 3rd photovoltaic panel is fixedly connected with the right side of the shell.

Preferably, input of the output end of first photovoltaic panel, the second photovoltaic panel and the 3rd photovoltaic panel with battery End is unidirectional to be electrically connected with.

Preferably, the position of the positive and corresponding thermally conductive sheet of the apparatus body is provided with heat conductive silica gel, the shell Right side is fixedly connected with the first air intake plate, the right side of the shell and is fixedly connected with second positioned at the bottom of the first air intake plate and enters Aerofoil.

Preferably, the left side of the shell and the position of corresponding second fan are fixedly connected with the first exhausting plate, described outer The left side of the shell and position of corresponding first fan is fixedly connected with the second exhausting plate.

Compared with prior art, the beneficial effects of the utility model are as follows：

1st, the utility model is by the way that there is provided the first fan, the first fan can carry out integral heat sink to equipment, by setting The second fan is put, and heat-conducting metal bar is provided with the second fan, heat-conducting metal bar can transmit the heat of precision instrument, so Radiated afterwards by the second fan, by the way that there is provided thermally conductive sheet so that heat abstractor can be directed to emphasis radiating object and carry out Radiating, by the way that there is provided the first temperature sensor, setting can be passed through with the temperature change of the precision instrument on monitoring device body Second temperature sensor, can with the bulk temperature of monitoring device, by the way that there is provided shell and the second power governor so that dissipates Thermal can adjust the rotating speed of the first fan and the second fan according to temperature variations, so as to be radiated, pass through first Power governor, the second power governor, heat-conducting metal bar, thermally conductive sheet, the first temperature sensor and second temperature sensor Coordinate, the problem of solving traditional heat-dissipating device can not targetedly be radiated, and the thermal efficiency that causes to disappear is low.

2nd, the utility model is by there is provided the first photovoltaic panel, the second photovoltaic panel and the 3rd photovoltaic panel, can not only play The effect of sunshade, but also can convert solar energy into electrical energy and be radiated, by there is provided heat conductive silica gel, improving heat conduction The capacity of heat transmission of piece, by there is provided the first air intake plate and the second air intake plate, facilitating the flowing and circulation of air, by there is provided First exhausting plate and the second exhausting plate, the first fan and the second fan is facilitated to be radiated.

Brief description of the drawings

Fig. 1 is the utility model structure diagram；

Fig. 2 is Tthe utility model system schematic diagram.

In figure：1 shell, 2 apparatus bodies, 3 first fans, 4 first power governors, 5 second fans, 6 second power are adjusted Save device, 7 heat-conducting metal bars, 8 thermally conductive sheets, 9 first temperature sensors, 10 second temperature sensors, 11 batteries, 12 control circuits Plate, 13 first photovoltaic panels, 14 second photovoltaic panels, 15 the 3rd photovoltaic panels, 16 heat conductive silica gels, 17 first air intake plates, 18 second air intakes Plate, 19 first exhausting plates, 20 second exhausting plates.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Fig. 1-2, a kind of Electromechanical Control heat abstractor, including shell 1 are referred to, the bottom of the inwall of shell 1 is fixedly connected with Apparatus body 2, the back side of the inwall of shell 1 and is fixedly connected with the first fan 3 positioned at the left side of apparatus body 2, the first fan 3 Top is provided with the first power governor 4, the back side of the inwall of shell 1 and is fixedly connected with second positioned at the top of the first fan 3 Fan 5, the top of the second fan 5 are provided with the second power governor 6, and the left side of the second fan 5 is connected with heat-conducting metal Bar 7, the one end of heat-conducting metal bar 7 away from the second fan 5 are fixedly connected with thermally conductive sheet 8, and thermally conductive sheet 8 is movably connected in apparatus body 2 front, positive and positioned at thermally conductive sheet 8 the right side of apparatus body 2 are fixedly connected with the first temperature sensor 9, the inwall of shell 1 Top be fixedly connected with second temperature sensor 10, the top of the inwall of shell 1 and positioned at the right side of second temperature sensor 10 Battery 11 is fixedly connected with, the bottom of battery 11 is fixedly connected with control board 12, the output end of battery 11 and control The input of circuit board 12 processed is unidirectionally electrically connected with, the input of control board 12 respectively with the first temperature sensor 9 and The output end of two temperature sensors 10 is unidirectionally electrically connected with, the output end of control board 12 respectively with the first power governor 4 Unidirectionally it is electrically connected with the input of the second power governor 6, the output end of the first power governor 4 is defeated with the first fan 3 Enter the unidirectional electric connection in end, the output end of the second power governor 6 and the input of the second fan 5 are unidirectionally electrically connected with, shell 1 Top be fixedly connected with the first photovoltaic panel 13, the left side of shell 1 is fixedly connected with the second photovoltaic panel 14, and the right side of shell 1 is consolidated Surely it is connected with the 3rd photovoltaic panel 15, the output end of the first photovoltaic panel 13, the second photovoltaic panel 14 and the 3rd photovoltaic panel 15 is and electric power storage The input in pond 11 is unidirectionally electrically connected with, by there is provided the first photovoltaic panel 13, the second photovoltaic panel 14 and the 3rd photovoltaic panel 15, no The effect of sunshade can only be played, but also can convert solar energy into electrical energy and be radiated, apparatus body 2 it is positive and right The position of thermally conductive sheet 8 is answered to be provided with heat conductive silica gel 16, the right side of shell 1 is fixedly connected with the first air intake plate 17, the right side of shell 1 And the second air intake plate 18 is fixedly connected with positioned at the bottom of the first air intake plate 17, by there is provided heat conductive silica gel 16, improving and leading The capacity of heat transmission of backing 8, by there is provided the first air intake plate 17 and the second air intake plate 18, facilitating the flowing and circulation of air, outside The left side of shell 1 and the position of corresponding second fan 5 are fixedly connected with the first exhausting plate 19, the left side of shell 1 and corresponding first wind The position of fan 3 is fixedly connected with the second exhausting plate 20, by there is provided the first exhausting plate 19 and the second exhausting plate 20, facilitating first The fan 5 of fan 3 and second is radiated, and integral heat sink can be carried out to equipment by the way that there is provided the first fan 3, the first fan 3, By setting the second fan 5, and heat-conducting metal bar 7 is provided with the second fan 5, heat-conducting metal bar 7 can transmit accurate instrument The heat of device, then radiated by the second fan 5, by the way that there is provided thermally conductive sheet 8 so that heat abstractor can be directed to emphasis Radiating object is radiated, can be with the temperature of the precision instrument on monitoring device body 2 by there is provided the first temperature sensor 9 Degree change, can be with the bulk temperature of monitoring device, by the way that there is provided shell 1 and the by there is provided second temperature sensor 10 Two power governors 6 so that heat abstractor can adjust the rotating speed of the first fan 3 and the second fan 5 according to temperature variations, So as to be radiated, pass through the first power governor 4, the second power governor 6, heat-conducting metal bar 7, thermally conductive sheet 8, the first temperature The cooperation of sensor 9 and second temperature sensor 10, solving traditional heat-dissipating device can not targetedly be radiated, and cause to disappear The problem of thermal efficiency is low.

In use, the first fan 3 can carry out integral heat sink to equipment, heat-conducting metal bar 7 can transmit precision instrument Heat, then radiated by the second fan 5, by the way that there is provided thermally conductive sheet 8 so that heat abstractor can be directed to emphasis and radiate Object is radiated, by that there is provided the first temperature sensor 9, can be become with the temperature of the precision instrument on monitoring device body 2 Change, can be with the bulk temperature of monitoring device, by the way that there is provided the work(of shell 1 and second by there is provided second temperature sensor 10 Rate adjuster 6 so that heat abstractor can adjust the rotating speed of the first fan 3 and the second fan 5 according to temperature variations, so as to Radiated, pass through the first power governor 4, the second power governor 6, heat-conducting metal bar 7, thermally conductive sheet 8, the first TEMP The cooperation of device 9 and second temperature sensor 10, solving traditional heat-dissipating device can not targetedly be radiated, and cause the thermal effect that disappears The problem of rate is low.

In summary：The Electromechanical Control heat abstractor, adjusted by shell 1, apparatus body 2, the first fan 3, the first power Save device 4, the second fan 5, the second power governor 6, heat-conducting metal bar 7, thermally conductive sheet 8, the first temperature sensor 9, second temperature The cooperation of sensor 10, battery 11 and control board 12, solving traditional heat-dissipating device can not targetedly be radiated, The problem of thermal efficiency that causes to disappear is low.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of Electromechanical Control heat abstractor, including shell (1), it is characterised in that：The bottom of shell (1) inwall, which is fixed, to be connected It is connected to apparatus body (2), the back side of shell (1) inwall and is fixedly connected with the first wind on the left of apparatus body (2) Fan (3), the first power governor (4), the back side and position of shell (1) inwall are provided with the top of first fan (3) The second fan (5) is fixedly connected with the top of the first fan (3), the second power is provided with the top of second fan (5) Adjuster (6), heat-conducting metal bar (7) is connected with the left of second fan (5), the heat-conducting metal bar (7) is remote One end of second fan (5) is fixedly connected with thermally conductive sheet (8), and the thermally conductive sheet (8) is being movably connected in apparatus body (2) just Face, the front of the apparatus body (2) and is fixedly connected with the first temperature sensor (9) on the right side of the thermally conductive sheet (8), described It is fixedly connected with second temperature sensor (10) at the top of shell (1) inwall, the top of shell (1) inwall and positioned at second Battery (11) is fixedly connected with the right side of temperature sensor (10), the bottom of the battery (11) is fixedly connected with control electricity Road plate (12), the input of the output end and control board (12) of the battery (11) are unidirectionally electrically connected with, the control The input of circuit board (12) is unidirectionally electrical with the output end of the first temperature sensor (9) and second temperature sensor (10) respectively Connection, the output end of the control board (12) are defeated with the first power governor (4) and the second power governor (6) respectively Enter the unidirectional electric connection in end, the output end of first power governor (4) unidirectionally electrically connects with the input of the first fan (3) Connect, the output end and the input of the second fan (5) of second power governor (6) are unidirectionally electrically connected with.

A kind of 2. Electromechanical Control heat abstractor according to claim 1, it is characterised in that：The top of the shell (1) is consolidated Surely the first photovoltaic panel (13) is connected with, the second photovoltaic panel (14), the shell (1) are fixedly connected with the left of the shell (1) Right side be fixedly connected with the 3rd photovoltaic panel (15).

A kind of 3. Electromechanical Control heat abstractor according to claim 2, it is characterised in that：First photovoltaic panel (13), Input of the output end of second photovoltaic panel (14) and the 3rd photovoltaic panel (15) with battery (11) is unidirectionally electrically connected with.

A kind of 4. Electromechanical Control heat abstractor according to claim 1, it is characterised in that：The apparatus body (2) is just The face and position of corresponding thermally conductive sheet (8) is provided with heat conductive silica gel (16), the first air intake is fixedly connected with the right side of the shell (1) Plate (17), the right side of the shell (1) and is fixedly connected with the second air intake plate (18) positioned at the bottom of the first air intake plate (17).

A kind of 5. Electromechanical Control heat abstractor according to claim 1, it is characterised in that：The left side of the shell (1) and The position of corresponding second fan (5) is fixedly connected with the first exhausting plate (19), the left side of the shell (1) and corresponding first fan (3) position is fixedly connected with the second exhausting plate (20).