CN203984864U - Control cubicle ventilation heat abstractor - Google Patents

Abstract

The utility model discloses a kind of control cubicle ventilation heat abstractor, comprise control cubicle, air blast, air inlet pipe and escape pipe, air inlet is arranged at described control cubicle bottom, gas outlet is arranged at top, described air blast is connected with air inlet pipe, air inlet pipe is connected with the air inlet of control cubicle, and the gas outlet of control cubicle connects escape pipe.This device is used for reference ventilation and heat principle, utilize air blast to manufacture cold wind, cold wind enters control cubicle through air inlet pipe, thereby in control cubicle, form adverse current and carry out exchange heat, final high temperature air is discharged to outside prying body by gas outlet, control cubicle top and escape pipe, thereby reach the effect of heat radiation, effectively extend the useful life of Circuits System equipment, guarantee the stable operation of prying body.

Description

Control cubicle ventilation heat abstractor

Technical field

The utility model relates to hydraulic pressure aerating prying body, relates in particular to the control cubicle ventilation heat abstractor of hydraulic pressure aerating prying body.

Background technology

Hydraulic moving aerating prying body is electric-control system, hydraulic system, the refueling system centralized arrangement composite type aerating equipment in the prying body of container-type, and in prying body, all circuit control systems all need to take explosion precaution.

Control cubicle cabinet door in prying body adopts a circle bolt to fix, do not allow to open without authorization, and integrated circuit is more in control cubicle, duration of work caloric value is large, control cubicle is taked explosion-proof wrong number, enclosed environment causes in control cubicle and dispels the heat not in time, and circuit because high temperature easily produces fault, thereby affects prying body overall operation.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of control cubicle ventilation heat abstractor, and this device, not destroying under the prerequisite of control cubicle explosion-proof performance, can reduce control in-cabinet temperature, prevents that in control cubicle, circuit because high temperature produces fault.

For solving the problems of the technologies described above, the utility model provides a kind of control cubicle ventilation heat abstractor, comprise control cubicle, air blast, air inlet pipe and escape pipe, air inlet is arranged at described control cubicle bottom, and gas outlet is arranged at top, described air blast is connected with air inlet pipe, air inlet pipe is connected with the air inlet of control cubicle, and the gas outlet of control cubicle connects escape pipe, and described air inlet pipe and escape pipe material are heat-barrier material, as foam, or at air inlet pipe and escape pipe outer wrapping foam;

Described air blast is positioned at outside prying body, and air inlet pipe is connected with the control cubicle in prying body, and escape pipe leads to outside prying body.

For simple declaration for topic for the purpose of, below to control cubicle ventilation heat abstractor described in the utility model all referred to as this device.

This device is used for reference ventilation and heat principle, utilize air blast to manufacture cold wind, cold wind enters control cubicle through air inlet pipe, thereby form adverse current in control cubicle, carries out exchange heat, final high temperature air is discharged to outside prying body by gas outlet, control cubicle top and escape pipe, thereby reaches the effect of heat radiation.Air inlet pipe adopts heat-barrier material, can guarantee not heated by prying body external environment of cold wind; Escape pipe adopts heat-barrier material, make through the hot blast of control cubicle not with prying body in air carry out Rapid Thermal exchange, can not reject heat in prying body, make to maintain in prying body low temperature.

The enclosed environment of hydraulic moving sled control cubicle is the one of the main reasons that causes the interior integral control circuit of control cubicle and electric equipment to damage, by adding ventilation unit, in control cubicle, form Air Flow, reached the object of timely cooling, to effectively extend the useful life of Circuits System equipment, guarantee the stable operation of prying body.

The utility model can also increase low-temperature receiver between air blast and control cubicle, such as ice cube etc., thereby reduces the temperature of the air that enters control cubicle, reaches cooling object fast.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment mono-.

Fig. 2 is the stereogram of the utility model embodiment mono-.

Fig. 3 is the structural representation of the utility model embodiment bis-.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Embodiment mono-

As depicted in figs. 1 and 2, control cubicle ventilation heat abstractor, comprise control cubicle 3, air blast 2, air inlet pipe 4 and escape pipe 5, described air blast is positioned at outside prying body 1, described control cubicle 3 is positioned at prying body 1, air inlet is arranged at control cubicle 3 bottoms, gas outlet is arranged at top, described air blast 2 is connected with air inlet pipe 4, air inlet pipe 4 is wrapped with foam, air inlet pipe 4 is connected with the air inlet of control cubicle 3 through the wall of prying body 1 one sides, the gas outlet of control cubicle 3 connects escape pipe 5, escape pipe 5 air inlet pipe 4 are wrapped with foam, escape pipe 5 is supported on prying body 1 by support 6, escape pipe 5 leads to outside prying body 1 through the wall of prying body 1 opposite side.

Embodiment bis-

As shown in Figure 3, control cubicle ventilation heat abstractor, comprise control cubicle 3, air blast 2, ice groove 7, air inlet pipe 4 and escape pipe 5, described air blast is positioned at outside prying body 1, described control cubicle 3 is positioned at prying body 1, air inlet is arranged at control cubicle 3 bottoms, gas outlet is arranged at top, described air blast 2 is connected with air inlet pipe 4, air inlet pipe 4 is passed in ice groove 7, the ice cube of draining the oil in ice groove 7, air inlet pipe 4 is connected with the air inlet of control cubicle 3 through the wall of prying body 1 one sides, the gas outlet of control cubicle 3 connects escape pipe 5, escape pipe 5 is instlated tubular, escape pipe 5 is supported on prying body 1 by support 6, escape pipe 5 leads to outside prying body 1 through the wall of prying body 1 opposite side.

The above is only embodiment of the present utility model.It should be pointed out that for the person of ordinary skill of the art, do not departing under the prerequisite of the utility model principle, can also carry out some distortion or be equal to replacement the technical solution of the utility model, also should be considered as belonging to protection range of the present utility model.

Claims (5)

1. control cubicle ventilation heat abstractor, comprise control cubicle, air blast, air inlet pipe and escape pipe, it is characterized in that: air inlet is arranged at described control cubicle bottom, gas outlet is arranged at top, described air blast is connected with air inlet pipe, air inlet pipe is connected with the air inlet of control cubicle, and the gas outlet of control cubicle connects escape pipe.

2. control cubicle ventilation heat abstractor as claimed in claim 1, is characterized in that: described air blast is positioned at outside prying body, and air inlet pipe is connected with the control cubicle in prying body, and escape pipe leads to outside prying body.

3. control cubicle ventilation heat abstractor as claimed in claim 1 or 2, is characterized in that: between described air blast and control cubicle, have low-temperature receiver, air inlet pipe is passed from low-temperature receiver.

4. control cubicle ventilation heat abstractor as claimed in claim 1 or 2, is characterized in that: described air inlet pipe and escape pipe material are heat-barrier material.

5. control cubicle ventilation heat abstractor as claimed in claim 1 or 2, is characterized in that: on described air inlet pipe and escape pipe outer wall, be enclosed with thermal insulation layer.