CN211184755U

CN211184755U - Energy-saving radiator

Info

Publication number: CN211184755U
Application number: CN201922275237.1U
Authority: CN
Inventors: 邓福坪; 杨重云
Original assignee: Pcl Suzhou Co ltd
Current assignee: Pcl Suzhou Co ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-08-04
Anticipated expiration: 2029-12-18

Abstract

The utility model discloses an energy-saving radiator, including casing, fin and fan, the fin is range upon range of to be set up in the casing, the fan is installed on the casing surface, installs the casing surface of fan has the through-hole that link up with the casing is inside, the casing top is connected with a controller, is connected with a temperature sensor on this controller, the embedding of temperature sensor one end is waited in the radiating equipment for the collection equipment temperature, the temperature sensor other end is connected with the controller, and the temperature information who will gather sends for the controller, the controller further includes shell, fan knob switch, quick-operation joint and the control unit, the control unit sets up in the shell. The utility model discloses on can being used to the thermovent of equipment that generates heat, when assisting radiating to equipment, carry out real-time test and control through temperature sensor to the temperature in the equipment, avoid the equipment high temperature to cause the condition of equipment crash or damage device.

Description

Energy-saving radiator

Technical Field

The utility model relates to an energy-saving radiator belongs to light transceiver module processing technology field.

Background

In the field of electrical automation technology, a wide variety of automation devices are the most common. The automation device can not leave the control system. Most of control systems are installed in an electric box, the existing electric box is simple in structure, an openable door is arranged on a shell, and the control is convenient, because control equipment can not generate heat in the using process, the heat needs to be conducted to the outside rapidly and timely through a heat dissipation structure, otherwise, the functions of related electronic elements of a controller can be affected, even the related electronic elements of the controller are burnt, the controller can not work finally, the damage of the control equipment caused by overhigh temperature is avoided, heat dissipation holes are formed in the side wall of the shell and used for heat dissipation, but the heat dissipation effect of the heat dissipation mode is poor, and the use is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-saving radiator, this energy-saving radiator can be used to the thermovent of equipment that generates heat on, when carrying out supplementary radiating to equipment, carries out real-time test and control through temperature sensor to the temperature in the equipment, avoids the too high condition that causes equipment to crash or damage the device of equipment temperature.

In order to achieve the above purpose, the utility model adopts the technical scheme that: an energy-saving radiator comprises a shell, radiating fins and a fan, wherein the radiating fins are arranged in the shell in a stacked mode, the fan is installed on the outer surface of the shell, and a through hole communicated with the interior of the shell is formed in the surface of the shell, on which the fan is installed;

a controller is connected above the shell, a temperature sensor is connected to the controller, one end of the temperature sensor is embedded into equipment to be cooled and used for collecting the temperature of the equipment, and the other end of the temperature sensor is connected with the controller and used for sending collected temperature information to the controller;

the controller is also connected with an alarm which is electrically connected with the controller, the controller compares the acquired temperature information with a set threshold value, and when the acquired temperature is higher or lower than the set threshold value, the controller sends an alarm signal to the alarm, and the alarm gives an alarm;

the two side surfaces of the shell are respectively provided with a plurality of mounting through holes, at least one coil pipe is arranged in the shell, two ends of the coil pipe extend out of the mounting through holes, the middle part of the coil pipe is coiled in the shell and is tightly contacted with a radiating fin positioned in the shell, and cooling water flows and is filled in the coil pipe;

the controller further comprises a shell, a fan knob switch, a quick connector and a control unit, wherein the control unit is arranged in the shell, one end of each of the fan knob switch and the quick connector is located in the shell, the other end of each of the fan knob switch and the quick connector stretches out of the shell, the fan knob switch and the quick connector are electrically connected with the control unit, and the fan is connected with the controller through the quick connectors.

The further improved scheme in the technical scheme is as follows:

1. in the scheme, the middle part of the coil pipe coiled in the shell extends out of the mounting through hole.

2. In the above scheme, a protective cover is arranged outside the fan.

3. In the above scheme, the protection cover is a hollow protection cover.

4. In the above scheme, the lower surface of the shell is connected with a plurality of supporting seats.

5. In the above scheme, a fan starting capacitor is further arranged in the housing, and the fan starting capacitor is electrically connected with the control unit.

6. In the above scheme, a display screen is mounted on the outer surface of the shell back to the control unit.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model discloses energy-saving radiator, it can be used to the thermovent of the equipment that generates heat, when carrying out the supplementary heat dissipation to equipment, carries out real-time test and control to the temperature in the equipment through temperature sensor, avoids the too high condition that causes equipment crash or damages the device of equipment temperature; in addition, a plurality of mounting through holes are formed in two side surfaces of the shell respectively, at least one coil pipe is arranged in the shell, two ends of the coil pipe extend out of the mounting through holes, the middle of the coil pipe is coiled in the shell and is in close contact with cooling fins located in the shell, cooling water is filled in the coil pipe in a flowing mode, the cooling water is arranged in a circulating mode, the heat exchange efficiency of the cooling fins and the outside is further improved, and the heat dissipation efficiency and the effect of the cooling fins and the outside are improved.

2. The energy-saving radiator of the utility model is characterized in that the controller further comprises a shell, a fan knob switch, a quick coupling and a control unit, the control unit is arranged in the shell, one end of each of the fan knob switch and the quick connector is positioned in the shell, the other end of each of the fan knob switch and the quick connector is extended out of the shell, the fan knob switch and the quick connector are both electrically connected with the control unit, the fan is connected with the controller through the quick connector, the controller is used for controlling the starting and stopping of the fan, the rotating speed of the fan is adjusted according to the real-time temperature in the equipment, the matching of the equipment temperature and the rotating speed of the fan is realized, the energy consumption is reduced while the good heat dissipation is ensured, in addition, the temperature in the equipment can be read in real time through the display screen, and the rotating speed of the fan is manually regulated and controlled through a knob switch of the fan so as to adapt to different conditions and further ensure the heat dissipation effect.

Drawings

FIG. 1 is a schematic view of the energy-saving heat sink of the present invention;

FIG. 2 is a schematic view of a partial structure of the energy-saving heat sink of the present invention;

figure 3 is the utility model discloses external heat dissipation group structure rear view.

In the following figures: 1. a housing; 2. a heat sink; 3. a fan; 4. a controller; 5. a temperature sensor; 6. an alarm; 7. a protective cover; 8. a supporting seat; 9. mounting a through hole; 10. a coil pipe; 11. a housing; 12. a fan starting capacitor; 13. a fan knob switch; 14. a quick coupling; 15. a control unit; 16. a display screen.

Detailed Description

In the description of this patent, it is noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The meaning of the above terms in this patent may be specifically understood by those of ordinary skill in the art.

Example 1: an energy-saving radiator comprises a shell 1, radiating fins 2 and a fan 3, wherein the radiating fins 2 are arranged in the shell 1 in a stacked mode, the fan 3 is installed on the outer surface of the shell 1, and a through hole communicated with the interior of the shell 1 is formed in the surface of the shell 1 on which the fan 3 is installed, so that the fan 3 can radiate heat absorbed by the radiating fins 2 in the shell 1 out of the shell 1;

a controller 4 is connected above the shell 1, a temperature sensor 5 is connected to the controller 4, one end of the temperature sensor 5 is embedded into equipment to be cooled and used for collecting the temperature of the equipment, and the other end of the temperature sensor 5 is connected with the controller 4 and used for sending collected temperature information to the controller 4;

the controller 4 is also connected with an alarm 6, the alarm 6 is electrically connected with the controller 4, the controller 4 compares the acquired temperature information with a set threshold value, when the acquired temperature is higher or lower than the set threshold value, the controller 4 sends an alarm signal to the alarm 6, and the alarm 6 gives an alarm;

a plurality of mounting through holes 9 are respectively formed in two side surfaces of the shell 1, at least one coil pipe 10 is arranged in the shell 1, two ends of the coil pipe 10 extend out of the mounting through holes 9, the middle part of the coil pipe 10 is coiled in the shell 1 and is in close contact with the radiating fins 2 in the shell 1, and cooling water flows and is filled in the coil pipe 10;

the controller 4 further comprises a shell 11, a fan knob switch 13, a quick coupling 14 and a control unit 15, the control unit 15 is arranged in the shell 11, one end of each of the fan knob switch 13 and the quick coupling 14 is located in the shell 11, the other end of each of the fan knob switch 13 and the quick coupling 14 stretches out from the shell 11, the fan knob switch 13 and the quick coupling 14 are electrically connected with the control unit 15, and the fan 3 is connected with the controller 4 through the quick coupling 14.

The middle of the coil pipe 10 coiled in the shell 1 extends out of the installation through hole 9, namely, one end of the coil pipe 10 penetrates into the shell 1 from one installation through hole 9 on one side surface of the shell 1, penetrates out of one installation through hole 9 on the other side surface of the shell 1, penetrates into the shell 1 from the other installation through hole 9 on the same side surface of the shell 1, penetrates out of the other installation through hole 9 on the other side surface of the shell 1, and is coiled in sequence.

Example 2: an energy-saving radiator comprises a shell 1, radiating fins 2 and a fan 3, wherein the radiating fins 2 are arranged in the shell 1 in a stacked mode, the fan 3 is installed on the outer surface of the shell 1, and a through hole communicated with the interior of the shell 1 is formed in the surface of the shell 1 on which the fan 3 is installed, so that the fan 3 can radiate heat absorbed by the radiating fins 2 in the shell 1 out of the shell 1;

A protective cover 7 is arranged outside the fan 3; the protective cover 7 is a hollow protective cover; the lower surface of the shell 1 is connected with a plurality of supporting seats 8; a fan starting capacitor 12 is further disposed in the housing 11, and the fan starting capacitor 12 is electrically connected to the control unit 15; a display screen 16 is mounted on the outer surface of the housing 11 opposite the control unit 15.

When the energy-saving radiator is adopted, the energy-saving radiator can be used on a heat dissipation port of heating equipment, auxiliary heat dissipation is carried out on the equipment, meanwhile, real-time test and monitoring are carried out on the temperature in the equipment through the temperature sensor, and the condition that the equipment is halted or devices are damaged due to overhigh temperature of the equipment is avoided; in addition, the arrangement of cooling water in a circulating manner further enhances the heat exchange efficiency between the radiating fins and the outside, and improves the heat radiation efficiency and effect of the equipment;

in addition, the start and stop of the fan are controlled through the controller, the rotating speed of the fan is adjusted according to the real-time temperature in the equipment, the matching of the equipment temperature and the rotating speed of the fan is realized, good heat dissipation is guaranteed, energy consumption is reduced, in addition, the temperature in the equipment can be read in real time through the display screen, and the rotating speed of the fan is artificially regulated and controlled through the knob switch of the fan, so that the fan is suitable for different conditions, and the heat dissipation effect is further guaranteed.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. An energy-saving radiator which is characterized in that: the fan comprises a shell (1), radiating fins (2) and a fan (3), wherein the radiating fins (2) are stacked in the shell (1), the fan (3) is installed on the outer surface of the shell (1), and a through hole which is communicated with the inside of the shell (1) is formed in the surface of the shell (1) on which the fan (3) is installed;

a controller (4) is connected above the shell (1), a temperature sensor (5) is connected to the controller (4), one end of the temperature sensor (5) is embedded into equipment to be cooled and used for collecting the temperature of the equipment, and the other end of the temperature sensor (5) is connected with the controller (4) and sends collected temperature information to the controller (4);

the controller (4) is also connected with an alarm (6), the alarm (6) is electrically connected with the controller (4), the controller (4) compares the acquired temperature information with a set threshold value, when the acquired temperature is higher than or lower than the set threshold value, the controller (4) sends an alarm signal to the alarm (6), and the alarm (6) gives an alarm;

a plurality of mounting through holes (9) are respectively formed in two side surfaces of the shell (1), at least one coil pipe (10) is arranged in the shell (1), two ends of the coil pipe (10) extend out of the mounting through holes (9), the middle part of the coil pipe (10) is coiled in the shell (1) and is in close contact with a radiating fin (2) in the shell (1), and cooling water flows and is filled in the coil pipe (10);

controller (4) further includes shell (11), fan knob switch (13), quick-operation joint (14) and control unit (15), control unit (15) set up in shell (11), fan knob switch (13) and quick-operation joint (14) respective one end are located shell (11), and the other end reextends from shell (11), fan knob switch (13) and quick-operation joint (14) all are connected with control unit (15) electricity, fan (3) are connected with controller (4) through quick-operation joint (14).

2. The energy saving radiator of claim 1, wherein: the middle part of a coil pipe (10) coiled in the shell (1) extends out of the mounting through hole (9).

3. The energy saving radiator of claim 1, wherein: and a protective cover (7) is arranged on the outer side of the fan (3).

4. The energy saving radiator of claim 3, wherein: the protective cover (7) is a hollow protective cover.

5. The energy saving radiator of claim 1, wherein: the lower surface of the shell (1) is connected with a plurality of supporting seats (8).

6. The energy saving radiator of claim 1, wherein: a fan starting capacitor (12) is further arranged in the shell (11), and the fan starting capacitor (12) is electrically connected with the control unit (15).

7. The energy saving radiator of claim 1, wherein: a display screen (16) is mounted on the outer surface of the housing (11) opposite the control unit (15).