CN212935224U - Electric simulation screen cabinet that radiating effect is good - Google Patents

Abstract

The utility model relates to an electric simulation screen cabinet that radiating effect is good, it includes the installation cabinet body, set up in the positive analog screen unit of installation cabinet body, the installation cabinet body includes the interior cabinet body and the outer cabinet body, set up the heat dissipation cavity between the interior cabinet body and the outer cabinet body, the heat dissipation cavity is including setting up in the back heat dissipation chamber at the installation cabinet back, set up in the top heat dissipation chamber at installation cabinet top, set up the cooling tube in the heat dissipation cavity, the coolant import of cooling tube is located back heat dissipation intracavity portion, the cooling tube includes back cooling trachea, top cooling trachea, back cooling trachea and top cooling trachea intercommunication. This application has the advantage that effectively improves electric simulation screen heat dissipation ventilation effect, increases equipment job stabilization nature and security.

Description

Electric simulation screen cabinet that radiating effect is good

Technical Field

The application relates to the technical field of simulation screen cabinet equipment, in particular to an electric simulation screen cabinet with a good heat dissipation effect.

Background

The analog screen is an important analog display device in the industrial field, and has been widely applied to the scheduling and monitoring of an industrial production system. The simulation screen can display the working parameters and the running state of the field equipment in real time, and timely and accurately reflect the running state of the system equipment to a monitor, so that the monitor can conveniently control the production process. The electric simulation screen cabinet can conveniently and efficiently connect and configure modules in a system to be monitored, so that the normal work of the simulation screen is realized.

The electric elements and the connecting circuits inside the electric simulation screen cabinet can generate more heat due to the fact that the electric elements and the connecting circuits are in a real-time working state, and the heat accumulation can lead to the temperature rise of the electric elements and the connecting circuits, so that the working stability and safety of the electric simulation screen are affected. Therefore, it is necessary to improve the heat dissipation and ventilation effects of the electrical simulation cabinet.

SUMMERY OF THE UTILITY MODEL

In order to improve the heat dissipation ventilation effect of electric simulation screen cabinet for electric simulation screen job stabilization nature, security are higher, this application provides a good electric simulation screen cabinet of radiating effect.

The application provides a good electric simulation screen cabinet of radiating effect adopts following technical scheme:

the utility model provides an electric simulation screen cabinet that radiating effect is good, includes the installation cabinet body, sets up in the positive simulation screen unit of installation cabinet body, the installation cabinet body includes the interior cabinet body and the outer cabinet body, be provided with the heat dissipation cavity between the interior cabinet body and the outer cabinet body, be provided with the cooling tube in the heat dissipation cavity.

By adopting the technical scheme, the heat dissipation cavity formed between the inner cabinet body and the outer cabinet body can accelerate the dissipation of heat of electrical components and circuits in the inner cabinet body, and the cooling pipe can timely and efficiently transfer heat and realize heat exchange through the cooling medium, so that the purpose of further improving the heat dissipation and cooling effects of the electrical simulation screen cabinet is achieved.

Preferably, the heat dissipation cavity comprises a back heat dissipation cavity arranged on the back of the installation cabinet and a top heat dissipation cavity arranged on the top of the installation cabinet, and the cooling medium inlet of the cooling pipe is located outside the back heat dissipation cavity.

By adopting the technical scheme, the cooling medium is introduced from the cooling medium inlet positioned outside the back heat dissipation cavity, so that the stroke of the cooling medium is as long as possible, the circulation area of the cooling medium is increased, the heat exchange area is increased, and the effect of improving the heat dissipation and cooling efficiency is achieved; simultaneously, the heat dissipation to installation cabinet body back can be realized to back heat dissipation chamber, and the heat dissipation to installation cabinet body top can be realized to top heat dissipation chamber, can show improvement radiating efficiency through the cooperation in back heat dissipation chamber and top heat dissipation chamber.

Preferably, the cooling medium is cooling air, the cooling pipe comprises a back cooling air pipe and a top cooling air pipe, and the back cooling air pipe is communicated with the top cooling air pipe.

By adopting the technical scheme, the back cooling air pipe realizes cooling air supply to the back heat dissipation cavity, and the top cooling air pipe realizes cooling air supply to the top heat dissipation cavity; the cooling gas is adopted for cooling, so that the efficiency of installing and maintaining the cooling pipeline can be improved, and the safety of cooling and radiating electrical elements and circuits is also improved.

Preferably, the back cooling air pipe and the top cooling air pipe both comprise a plurality of continuous U-shaped pipeline units.

Through adopting above-mentioned technical scheme, set up continuous U-shaped pipeline unit and can reduce the tracheal stringing occupation space of cooling, effectively improve the tracheal pipeline length of cooling simultaneously to reach the effect that improves cooling pipe heat transfer area and heat dissipation cooling efficiency.

Preferably, a plurality of cooling air holes are uniformly distributed on the pipe walls of the back cooling air pipe and the top cooling air pipe, a plurality of cooling air outlets are formed in one side, close to the top heat dissipation cavity, of the inner cabinet body, and the cooling air outlets are communicated with the inside of the installation cabinet body.

Through adopting above-mentioned technical scheme, the cooling gas flows through the cooling trachea and gets into the heat dissipation cavity through the cooling gas pocket of back cooling trachea, top cooling trachea's pipe wall department to in time effectively with the heat conduction heat dissipation of installation cabinet body inside through heat-conduction, the cooling gas that gets into the heat dissipation cavity gets into the installation cabinet body through the cooling gas outlet, thereby forms the thermal convection, has further improved the radiating effect.

Preferably, the upper portion of one side of the back of the installation cabinet body is provided with an air outlet, the air outlet penetrates through the inner cabinet body and the outer cabinet body, and an exhaust fan is arranged on one side of the air outlet close to the inside of the installation cabinet body.

Through adopting above-mentioned technical scheme, start the exhaust fan and outwards discharge the inside thermal convection gas of the internal portion of cabinet through the air exit to the radiating effect has further been improved.

Preferably, a pair of through openings are respectively formed in the two sides of the installation cabinet body along the length direction, the through openings are provided with side baffles, and the bottoms of the side baffles are provided with air inlets.

By adopting the technical scheme, the pass-through opening can facilitate workers to pass in and out of the installation cabinet body for wiring installation; through setting up the air intake, can in time want the inside supplementary air of installation cabinet body, realize stable gas convection to reach the heat dissipation cooling that lasts.

Preferably, an air guide cover is arranged on the outer side of the air inlet, and the air guide cover is fixedly connected with a plurality of air guide plates.

Through adopting above-mentioned technical scheme, the aviation baffle can get into the inside gas of installation cabinet body to the outside and carry out the water conservancy diversion, improves the stability that gas flows to help improving heat dissipation cooling effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the heat dissipation cavity is arranged between the inner cabinet body and the outer cabinet body, the cooling pipe is arranged in the heat dissipation cavity, and the cooling pipe can timely and efficiently transfer heat and realize heat exchange through a cooling medium, so that the purpose of effectively improving the heat dissipation and cooling effects of the electrical simulation screen cabinet is achieved;

2. the back cooling air pipe and the top cooling air pipe are arranged to comprise a plurality of continuous U-shaped pipeline units by arranging the back heat dissipation cavity and the top heat dissipation cavity and arranging the cooling air inlet outside the bottom heat dissipation cavity, so that the pipeline length of the cooling air pipe is prolonged as much as possible, the cooling heat exchange area is increased, and the purpose of improving the heat dissipation efficiency is achieved;

3. through setting up the exhaust duct who runs through the internal cabinet body and the external cabinet body at installation cabinet body back one side top, the exhaust duct is close to the outside air exit that sets up of installation cabinet body, and the exhaust duct is close to the inside one side of installation cabinet body and sets up the exhaust fan, starts the exhaust fan and outwards discharges the internal thermal convection gas of internal cabinet through the exhaust duct to the radiating effect has further been improved.

Drawings

FIG. 1 is a view for showing the positional relationship between a side wall and a mounting cabinet body according to an embodiment of the present application;

FIG. 2 is a side view of an embodiment of the present application for showing a positional relationship between a simulated screen unit and a mounting cabinet body;

FIG. 3 is a schematic diagram for showing a positional relationship between a back heat dissipation chamber and a top heat dissipation chamber according to an embodiment of the present application;

FIG. 4 is an exploded view of an arrangement structure for cooling pipes in a heat dissipation chamber according to an embodiment of the present application;

fig. 5 is an enlarged view of a portion a in fig. 4.

Description of reference numerals: 1. installing a cabinet body; 101. an inner cabinet body; 102. an outer cabinet body; 103. a heat dissipation cavity; 1031. a back heat dissipation cavity; 1032. a top heat dissipation chamber; 2. a simulated screen unit; 3. a cooling tube; 31. a back cooling air pipe; 32. a top cooling gas pipe; 33. a U-shaped pipeline unit; 34. a cooling medium inlet; 4. cooling the air holes; 5. a cooling gas outlet; 6. an air outlet; 7. an exhaust fan; 8. a passage opening; 9. side baffles; 91. an air inlet; 92. a wind scooper; 921. an air deflector.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an electric simulation screen cabinet that radiating effect is good.

Examples

Referring to fig. 1, including installation cabinet body 1, a pair of opening 8 has been seted up respectively along length direction's both sides to installation cabinet body 1, and side baffle 9 is all installed to opening 8, and air intake 91 has all been seted up to side baffle 9's bottom, and the wind scooper 92 is installed respectively to the outside that is located air intake 91, and wind scooper 92 fixedly connected with a plurality of aviation baffles 921.

Referring to fig. 2 and 3, the installation cabinet body 1 is located and openly installs the simulation screen unit 2, and the installation cabinet body 1 includes the interior cabinet body 101 and the outer cabinet body 102, is provided with the heat dissipation cavity 103 between the interior cabinet body 101 and the outer cabinet body 102, and the heat dissipation cavity 103 is including setting up in the back heat dissipation chamber 1031 at the installation cabinet back, setting up in the top heat dissipation chamber 1032 at installation cabinet top, and back heat dissipation chamber 1031 communicates with top heat dissipation chamber 1032.

Referring to fig. 3 and 4, a cooling pipe 3 is disposed in the heat dissipation cavity 103, a cooling medium inlet 34 of the cooling pipe 3 is located outside the back heat dissipation chamber 1031, the cooling medium is cooling air, the cooling pipe 3 includes a back cooling air pipe 31 and a top cooling air pipe 32, both the back cooling air pipe 31 and the top cooling air pipe 32 include a plurality of continuous U-shaped pipeline units 33, and the back cooling air pipe 31 is communicated with the top cooling air pipe 32.

Referring to fig. 4 and 5, a plurality of cooling air holes 4 are uniformly distributed on the tube walls of the back cooling air tube 31 and the top cooling air tube 32, a plurality of cooling air outlets 5 are provided on one side of the inner cabinet body 101 close to the top heat dissipation chamber 1032, the cooling air outlets 5 in this embodiment are located at four top corners of the top wall of the inner cabinet body 101, and the cooling air outlets 5 are communicated with the inside of the installation cabinet body 1.

Referring to fig. 3 and 4, an air outlet 6 is arranged on the upper portion of one side of the back surface of the installation cabinet body 1, the air outlet 6 penetrates through the inner cabinet body 101 and the outer cabinet body 102, and an exhaust fan 7 is installed on one side of the air outlet 6 close to the inside of the installation cabinet body 1.

The implementation principle of the embodiment is as follows: when the electric simulation screen cabinet normally works, the exhaust fan 7 is started, hot air is exhausted outwards through the air outlet 6, meanwhile, cooling air is introduced from the cooling medium inlet 34, and enters the back heat dissipation cavity 1031 and the top heat dissipation cavity 1032 along the cooling air holes 4 at the pipe walls of the back cooling air pipe 31 and the top cooling air pipe 32, so that the effects of quickly reducing the temperature of the inside of the heat dissipation cavity 103 and the temperature of the inner cabinet body 101 and the outer cabinet body 102 are achieved. After the cooling gas gets into installation cabinet body 1 inside from four cooling gas outlet 5 that are located the internal cabinet body 101 roof, can further promote the convection current of cooling gas and the inside hot-air of installation cabinet body 1 to the heat-conduction of convection current accelerates, reaches more efficient radiating effect.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an electric simulation screen cabinet that radiating effect is good, includes installation cabinet body (1), sets up in positive simulation screen unit (2) of installation cabinet body (1), its characterized in that: the mounting cabinet body (1) comprises an inner cabinet body (101) and an outer cabinet body (102), a heat dissipation cavity (103) is arranged between the inner cabinet body (101) and the outer cabinet body (102), and a cooling pipe (3) is arranged in the heat dissipation cavity (103).

2. The electric simulation screen cabinet with good heat dissipation effect of claim 1, characterized in that: the heat dissipation cavity (103) comprises a back heat dissipation cavity (1031) arranged on the back surface of the installation cabinet and a top heat dissipation cavity (1032) arranged on the top of the installation cabinet, and the cooling medium inlet (34) of the cooling pipe (3) is positioned outside the back heat dissipation cavity (1031).

3. The electric simulation screen cabinet with good heat dissipation effect as claimed in claim 2, wherein: the cooling medium is cooling gas, the cooling pipe (3) comprises a back cooling gas pipe (31) and a top cooling gas pipe (32), and the back cooling gas pipe (31) is communicated with the top cooling gas pipe (32).

4. The electric simulation screen cabinet with good heat dissipation effect of claim 3, wherein: the back cooling air pipe (31) and the top cooling air pipe (32) respectively comprise a plurality of continuous U-shaped pipeline units (33).

5. The electric simulation screen cabinet with good heat dissipation effect of claim 3, wherein: the pipe wall equipartition of back cooling trachea (31), top cooling trachea (32) has a plurality of cooling gas holes (4), a plurality of cooling gas export (5) have been seted up to one side that the interior cabinet body (101) are close to top heat dissipation chamber (1032), cooling gas export (5) and installation cabinet body (1) inside intercommunication.

6. The electric simulation screen cabinet with good heat dissipation effect of claim 1, characterized in that: the utility model discloses an air conditioner cabinet, including installation cabinet body (1), air outlet (6) are provided with on one side upper portion of installation cabinet body (1) back, air outlet (6) run through the interior cabinet body (101) and the outer cabinet body (102), air outlet (6) are close to installation cabinet body (1) inside one side and are provided with exhaust fan (7).

7. The electric simulation screen cabinet with good heat dissipation effect of claim 1, characterized in that: a pair of through openings (8) are respectively formed in the two sides of the installation cabinet body (1) in the length direction, side baffles (9) are arranged on the through openings (8), and air inlets (91) are formed in the bottoms of the side baffles (9).

8. The electric simulation screen cabinet with good heat dissipation effect of claim 7, wherein: an air guide cover (92) is arranged on the outer side of the air inlet (91), and a plurality of air guide plates (921) are fixedly connected to the air guide cover (92).

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