CN214676321U - Electromechanical device high efficiency heat abstractor - Google Patents

Abstract

The utility model discloses an electromechanical device high efficiency heat abstractor, including bearing plate, water tank and shell, wherein the water tank is installed at the bearing plate top, and the shell is installed at the water tank top to the shell is provided with first louvre, and all installs the track on the shell of both sides about the first louvre, and slidable mounting has the closing plate in the track, leans on the top to be provided with electromechanical room in the shell, is provided with the control room in the shell of electromechanical room below, and shell one side is rotated through the hinge and is installed the alloy door. The utility model discloses an install the track in shell one side, through when not using first louvre, with the closing plate slip in the track, seal up first louvre, when needing to use the cooperation of first louvre to dispel the heat, can pull out the closing plate, it is simple and convenient, prevent that external dust from getting into electromechanical device inside, improved the device effectively to electromechanical device's safety protection and improved the radiating efficiency, the wide application in electromechanical device field, engineering application value prospect is wide.

Description

Electromechanical device high efficiency heat abstractor

Technical Field

The utility model relates to an electromechanical device technical field specifically is an electromechanical device high efficiency heat abstractor.

Background

Electromechanical equipment generally refers to machinery, electrical appliances and electrical automation equipment, the electromechanical equipment has a wide application range, all industries can see the electromechanical equipment, some large fixed electromechanical equipment have poor heat dissipation effect, auxiliary tools are needed for heat dissipation, and a high-efficiency heat dissipation device for the electromechanical equipment is needed.

The existing heat dissipation device has the following defects:

1. most of the existing heat dissipation devices adopt fans for heat dissipation, but the heat dissipation efficiency of the mode is lower for electromechanical equipment with larger volume;

2. the existing heat dissipation device is attached with some heat dissipation holes to assist in heat dissipation, but the heat dissipation holes cannot be closed, so that external dust can easily enter the equipment, and certain influence can be caused on the equipment;

3. the existing heat dissipation device cannot measure the temperature inside the heat dissipation device, and workers can hardly perform proper cooling work in time according to the temperature of equipment, so that the high-efficiency heat dissipation device for the electromechanical equipment is provided to solve the existing problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electromechanical device high efficiency heat abstractor to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency heat dissipation device for electromechanical equipment comprises a bearing plate, a water tank and a shell, wherein the water tank is installed at the top of the bearing plate, a water pump is installed in the water tank, the shell is installed at the top of the water tank, a first heat dissipation hole is formed in the shell, tracks are installed on the shells on the upper side and the lower side of the first heat dissipation hole, a sealing plate is installed in the tracks in a sliding mode, an electromechanical chamber is arranged in the shell close to the top, pipe clamps are installed on two sides in the electromechanical chamber, cooling pipes are installed on the pipe clamps, one end of each cooling pipe is installed in a butt joint mode with the output end of the water pump, the other end of each cooling pipe is installed in the water tank in a butt joint mode, a mounting groove is formed in the top of the electromechanical chamber, a temperature sensor is installed in the mounting groove, a control chamber is arranged in the shell below the electromechanical chamber, a storage battery is installed on one side in the control chamber on one side of the storage battery, and a control box is installed in the control chamber on one side of the storage battery, the alloy door is installed through the hinge rotation in shell one side, the top of alloy door one side is provided with the display screen, and is provided with the signal lamp on the alloy door of display screen below, the cooler is all installed near the four corners in shell top.

Preferably, the motor is installed through the installation pole in the cooler, and the flabellum is installed to the motor output in the cooler.

Preferably, a second handle is installed on one side of the alloy door, and a lock hole is formed in the alloy door on one side of the second handle.

Preferably, a water inlet is formed in the top of one side of the water tank, and a water outlet is formed in the water tank below the water inlet.

Preferably, one side of the control box is provided with a second heat dissipation hole, and a control chip is installed in the control box.

Preferably, four angles of bearing plate bottom all install the shock attenuation landing leg, and shock attenuation landing leg bottom installs the counter weight foot.

Preferably, a first handle is installed on one side of the sealing plate, and a rubber ring is sleeved on the first handle.

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

1. the utility model discloses an install the cooling tube in the electromechanical room, through making the water pump circular telegram, the water pump is carried to the cooling tube in with the water tank to make water along with the cooling tube flows to the water tank opposite side, form the hydrologic cycle, dispel the heat to the electromechanical device of device inside, avoid using the heat dissipation fan because of traditional device, lead to the lower problem of the electromechanical device radiating efficiency who is bulky, improved the device effectively to the radiating effect of electromechanical device.

2. The utility model discloses an install the track in shell one side, through when not using first louvre, with the closing plate slip in the track, seal up first louvre, when needing to use the cooperation of first louvre to dispel the heat, can pull out the closing plate, simple and convenient prevents that external dust from getting into electromechanical device inside, has improved the device effectively to electromechanical device's protection.

3. The utility model discloses an install temperature sensor in the mounting groove, detect the temperature of electromechanical indoor portion through temperature sensor, and show temperature information on the display screen in real time through the control box subassembly, when the temperature surpassed the predetermined value, the control box subassembly can control the signal lamp and warn, remind the staff to cool down the work, avoid because of the staff can't know the condition of the inside temperature of device, lead to can not in time cooling down the work to the electromechanical device of device inside, the device has improved the supplementarily to the staff effectively.

Drawings

Fig. 1 is a schematic external structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

fig. 3 is a schematic top view of the present invention;

fig. 4 is a schematic back structure diagram of the present invention;

fig. 5is a schematic view of the local structure in the electromechanical chamber of the present invention.

In the figure: 1. a bearing plate; 101. a shock-absorbing leg; 2. a water tank; 201. a water inlet; 202. a water outlet; 203. a water pump; 3. a housing; 301. a first heat dissipation hole; 302. a track; 303. a sealing plate; 304. a first handle; 4. an electromechanical chamber; 401. a pipe clamp; 402. a cooling tube; 403. mounting grooves; 404. a temperature sensor; 5. a control room; 501. a storage battery; 502. a control box; 503. a second heat dissipation hole; 6. an alloy door; 601. a display screen; 602. a signal lamp; 603. a second handle; 7. a temperature reducer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; 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 specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the present invention provides an embodiment: a high-efficiency heat dissipation device for electromechanical equipment comprises a bearing plate 1, a water tank 2 and a shell 3, wherein four corners of the bottom of the bearing plate 1 are all provided with damping support legs 101, the bottoms of the damping support legs 101 are provided with counterweight feet for supporting, the top of the bearing plate 1 is provided with the water tank 2, the top of one side of the water tank 2 is provided with a water inlet 201, the water tank 2 below the water inlet 201 is provided with a water outlet 202, a water pump 203 is arranged in the water tank 2, and the top of the water tank 2 is provided with the shell 3;

specifically, the first housing 3 is provided with a first heat dissipation hole 301, the first heat dissipation hole 301 is provided with a rail 302 on the housing 3 at the upper side and the lower side of the first heat dissipation hole 301, and a sealing plate 303 is slidably mounted in the rail 302. the utility model discloses a rail 302 is mounted on one side of the housing 3, the sealing plate 303 is slid into the rail 302 to seal the first heat dissipation hole 301 when the first heat dissipation hole 301 is not used for heat dissipation, the sealing plate 303 can be pulled out when the first heat dissipation hole 301 is used for heat dissipation, which is simple and convenient, prevents external dust from entering the electromechanical device, effectively improves the protection of the device on the electromechanical device, the first handle 304 is mounted on one side of the sealing plate 303, the rubber ring is sleeved on the first handle 304, and the electromechanical chamber 4 is arranged on the top inside the housing 3;

specifically, the two sides in the electromechanical chamber 4 are both provided with pipe clamps 401, and the pipe clamps 401 are provided with cooling pipes 402, one end of each cooling pipe 402 is in butt joint with the output end of the water pump 203, and the other end of each cooling pipe 402 is in butt joint with the inside of the water tank 2, the pump shaft drives the impeller to do high-speed rotation movement together, so that the liquid filled between the blades in advance is forced to rotate, the liquid does radial movement from the center of the impeller to the periphery under the action of inertial centrifugal force, the liquid obtains energy in the movement process of flowing through the impeller, the static pressure energy is increased, the flow rate is increased, after the liquid leaves the impeller and enters the pump shell, the flow channel in the shell is gradually enlarged and decelerated, partial kinetic energy is converted into the static pressure energy, and finally the liquid flows into the discharge pipeline along the tangential direction, by installing the cooling pipes 402 in the electromechanical chamber 4, the water pump 203 is electrified, the water in the water tank 2 is conveyed into the cooling pipes 402 by the water pump 203, and the water flows to the other side of the water tank 2 along with the cooling pipes 402, water circulation is formed to dissipate heat of electromechanical equipment in the device, so that the problem that the electromechanical equipment with larger volume has lower heat dissipation efficiency due to the use of a heat dissipation fan in the traditional device is solved, the heat dissipation effect of the device on the electromechanical equipment is effectively improved, and the water pump 203 can adopt 25 ISG-100;

specifically, the top of the electromechanical room 4 is provided with a mounting groove 403, and a temperature sensor 404 is installed in the mounting groove 403, the temperature inside the electromechanical room 4 is detected by the temperature sensor 404, and the temperature information is displayed on the display screen 601 in real time by the control box 502 assembly, when the temperature exceeds a predetermined value, the control box 502 assembly controls the signal lamp 602 to warn to remind the worker to perform cooling work, thereby avoiding the situation that the worker cannot know the temperature inside the device, and the electromechanical equipment inside the device cannot be cooled in time, effectively improving the assistance of the device to the worker, the control room 5is arranged in the shell 3 below the electromechanical room 4, the storage battery 501 is installed at one side in the control room 5, the storage battery 501 is an emergency power supply of the device, when the device is powered off due to an emergency, the storage battery 501 supplies power to each electric appliance of the device, the normal operation of the device is maintained, each electric appliance has enough electric quantity to operate, a control box 502 is installed in a control chamber 5 on one side of the storage battery 501, a second heat dissipation hole 503 is arranged on one side of the control box 502, a control chip is installed in the control box 502, an alloy door 6 is installed on one side of a shell 3 through a hinge in a rotating manner, a display screen 601 is arranged on the top of one side of the alloy door 6, a signal lamp 602 is arranged on the alloy door 6 below the display screen 601, a second handle 603 is installed on one side of the alloy door 6, a lock hole is arranged on the alloy door 6 on one side of the second handle 603, coolers 7 are installed on the top of the shell 3 close to four corners, a motor is installed inside the coolers 7 through an installation rod, fan blades are installed at the output end of the motor inside the coolers 7, the principle of the coolers 7 is that the motor drives the fan blades to rotate, so that hot air in the device is exhausted out of the device, so as to carry out cooling work.

The working principle is as follows: before the device is used, a user firstly detects the device and confirms that no problem exists, the device is used, firstly, electromechanical equipment is placed in an electromechanical room 4, then a gold door 6 is closed, a temperature sensor 404 detects the temperature in the electromechanical room 4, the temperature in the electromechanical room is displayed on a display screen 601 through a control box 502 in real time, the device is provided with three cooling modes of a first cooling hole 301, a cooling pipe 402 and a cooler 7, the worker can perform a proper cooling mode according to the temperature displayed on the display screen 601, the first cooling hole 301 leads the maintenance device to ventilate and depends on the device to naturally cool, when the first cooling hole 301 is not used, a sealing plate 303 is required to be arranged on a track 302 to prevent external dust from entering the electromechanical room 4 and influencing the electromechanical equipment, the cooling pipe 402 is matched with a water pump 203, the water pump 203 conveys the water in a water tank 2 to the cooling pipe 402, and make the water in the cooling tube 402 flow into in the water tank 2 through the cooling tube 402 other end, form hydrologic cycle, the cooler 7 drives the flabellum through the motor and rotates, makes the air around circulate, takes away the hot-air in the electromechanical room 4, reaches the cooling effect, adopts different cooling methods, or makes different cooling methods collocation use to reach suitable cooling work.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides an electromechanical device high efficiency heat abstractor, includes bearing plate (1), water tank (2) and shell (3), its characterized in that: the water tank (2) is installed at the top of the bearing plate (1), the water pump (203) is installed in the water tank (2), the shell (3) is installed at the top of the water tank (2), the shell (3) is provided with first heat dissipation holes (301), tracks (302) are installed on the shell (3) on the upper side and the lower side of the first heat dissipation holes (301), sealing plates (303) are installed in the tracks (302) in a sliding mode, the motor room (4) is arranged in the shell (3) close to the top, pipe clamps (401) are installed on the two sides in the motor room (4), cooling pipes (402) are installed on the pipe clamps (401), one ends of the cooling pipes (402) are installed in a butt joint mode with the output end of the water pump (203), the other ends of the cooling pipes (402) are installed in a butt joint mode with the water tank (2), a mounting groove (403) is formed in the top of the motor room (4), and a temperature sensor (404) is installed in the mounting groove (403), be provided with control room (5) in shell (3) of electromechanical room (4) below, battery (501) are installed to one side in control room (5), and install control box (502) in control room (5) of battery (501) one side, alloy door (6) are installed through the hinge rotation in shell (3) one side, the top of alloy door (6) one side is provided with display screen (601), and is provided with signal lamp (602) on alloy door (6) of display screen (601) below, cooler (7) are all installed near the four corners in shell (3) top.

2. The high efficiency heat sink for electromechanical devices of claim 1, wherein: the motor is installed through the installation pole in cooler (7), and the flabellum is installed to motor output in cooler (7).

3. The high efficiency heat sink for electromechanical devices of claim 1, wherein: a second handle (603) is installed on one side of the alloy door (6), and a lock hole is formed in the alloy door (6) on one side of the second handle (603).

4. The high efficiency heat sink for electromechanical devices of claim 1, wherein: the water tank is characterized in that a water inlet (201) is formed in the top of one side of the water tank (2), and a water outlet (202) is formed in the water tank (2) below the water inlet (201).

5. The high efficiency heat sink for electromechanical devices of claim 1, wherein: one side of the control box (502) is provided with a second heat dissipation hole (503), and a control chip is installed in the control box (502).

6. The high efficiency heat sink for electromechanical devices of claim 1, wherein: damping supporting legs (101) are all installed at four angles of bearing plate (1) bottom, and counterweight foot is installed to damping supporting legs (101) bottom.

7. The high efficiency heat sink for electromechanical devices of claim 1, wherein: a first handle (304) is installed on one side of the sealing plate (303), and a rubber ring is sleeved on the first handle (304).

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