JP3246218U - SVG cooling system - Google Patents

Abstract

[Problem] To provide an SVG cooling system that may solve to some extent the problem that the cooling effect is reduced due to the mesh plate being clogged with willow or dandelion fluff. [Solution] The SVG cooling system mainly has a plurality of heat exchange systems. The heat exchange system includes a housing, a collection module, and a central processing unit. A heat exchanger and an electric fan system are provided inside the housing, and the electric fan system is provided on the upper part of the heat exchanger. The central processing unit adjusts the wind direction of each cooling fan as a whole according to the cooling effect to ensure the cooling effect and the operation effect of blowing in the opposite direction, detects the degree of decrease in temperature of the water passing through each fan, and judges the corresponding clogging state of the mesh plate, thereby predicting the cooling effect of reducing one or more fans in combination with the current environmental conditions. Some electric fans operating at high power reduce the coolant temperature to a low value, and the remaining electric fans perform the operation of blowing in the opposite direction to blow away the willow or dandelion fluff on the mesh plate. [Selected Figure] Figure 1

Description

The present invention relates to the technical field of water cooling systems, particularly to SVG cooling systems.

The SVG will be equipped with a water cooling system whose key components include a water cooling fan that includes a fan, water pipes, and a heat exchanger. Cooling water carried through the water pipes to the heat exchanger carries away the heat generated during operation of the SVG. When the heat exchanger is connected to the water pipes, the heat exchanger has many heat radiating fins that transfer the heat of the cooling water in the water pipes to the heat radiating fins. The electric fan sucks air from the environment, forms an airflow, and blows it onto the heat radiation fins, which allows the airflow to carry away the heat from the heat radiation fins, thereby cooling the cooling water and ensuring the effective operation of the cooling system. ensure that Throughout the year, different types of dust and foreign matter, such as cat willow and dandelion fluff, can enter the mesh board and affect the cooling effect depending on the season. The mesh plate located below the conventional water cooling fan tends to become clogged with cotton wool, dandelion fluff, etc., which reduces the cooling effect.

The purpose of this invention is to provide an SVG cooling system to solve the problem that the mesh plate below the conventional water cooling fan is clogged with cat willow, dandelion fluff, etc., reducing the cooling effect. shall be.

The present invention is achieved through the following technical solutions.
The SVG cooling system according to the present invention has multiple heat exchange systems.
The heat exchange system includes:
a casing having inside thereof a heat exchanger used for heat exchange of a heat dissipation medium, and an electric fan system provided above the heat exchanger and used for sucking cooling air;
a collection module used to collect the heat dissipation medium temperature of the heat exchanger;
A central processing unit is electrically connected to the heat exchange system, the collection module, and the fan system and used to control forward and reverse rotation of the fan system and operating efficiency of the heat exchange system.

In one embodiment of the present invention, a rotating ring and a rotating blade are further provided between the heat exchanger and the fan, the rotating ring is slidably connected to the housing, the rotating blades are provided in several pieces around the center of the rotating ring, the rotating blades are rotatably connected to the rotating ring, and the laying area of the rotating blades is smaller than the inner ring area of the rotating ring;
The impeller further connects to a power system that rotates the impeller.

In one embodiment of the present invention, the power system includes a transmission ring and a power source used to rotate the transmission ring, the transmission ring is rotatably connected inside the housing, a first gear is provided at the top of the rotating ring, the bottom of the transmission ring meshes with the first gear, the first gear is connected to the rotating blades via a rotating shaft, and multiple position limiting members are provided both at the bottom of the rotating ring and at the top of the transmission ring.

In one embodiment of the present invention, the distance between two adjacent position limiting members located on the same side is sufficient to allow a 90 degree rotation of the rotating blade.

In one embodiment of the present invention, the power source includes an electric machine and a second gear, the second gear is connected to an output end of the electric machine, the second gear meshes with the transmission ring, and the electric machine electrically connected to the central processing unit;

The technical solution of the embodiments of the present invention has at least the following advantages and beneficial effects.
The present invention mainly includes multiple heat exchange systems. The heat exchange system includes a housing, a collection module, and a central processing unit. A heat exchanger and a fan system are provided inside the housing, the fan system is provided above the heat exchanger and is used to suck in cooling air, and the heat exchanger is used to draw in cooling air. Used for heat exchange. The central processing unit globally adjusts the operation of each cooling fan blowing in the opposite direction according to the cooling effect to ensure the cooling effect and the effect of blowing in the opposite direction, thereby reducing the temperature of the water passing through each fan. By detecting the degree of clogging and determining the corresponding clogging status of the mesh plate, the cooling effect can be predicted if one or more fans are reduced in combination with the current environmental conditions. Some fans operating at high power reduce the coolant temperature to a lower value, which in turn allows a few fans to provide cooling and the remaining fans to perform a reverse blowing motion. Blow away dandelion fluff, etc. This may solve to some extent the problem that the net plate is clogged with cotton wool, dandelion fluff, etc. and the cooling effect is reduced.

In order to more clearly explain the technical solution of the embodiments of the present invention, we will briefly explain the drawings necessary for the embodiments next. It should be understood that the following drawings depict only certain embodiments of the present invention, and therefore should not be considered limiting in scope. Those skilled in the art can also obtain other related drawings based on these drawings without any creative effort.
FIG. 1 is a schematic diagram of the overall structure of the present invention. FIG. 2 is a schematic diagram of the structure in which the rotating blade closes according to the present invention. FIG. 3 is a schematic diagram of the structure in which the rotary blade opens according to the present invention. FIG. 4 is a schematic diagram of a structure in which the rotating ring and the transmission ring of the present invention mesh.

Form for implementing a utility model

In order to make the objectives, technical solutions and advantages of the embodiments of the present invention more clear, we will then explain the technical solutions in the embodiments of the present invention in combination with the drawings in the embodiments of the present invention. Explain clearly and completely. Obviously, the described examples are some but not all of the embodiments of the present invention. The components of embodiments of the invention that are generally described and shown in the drawings herein may be arranged and designed in a variety of different arrangements.

As shown in FIGS. 1-4, the SVG cooling system according to the present invention has multiple heat exchange systems. The heat exchange system under consideration mainly performs cooling work, and includes a housing 1, a heat exchanger, a fan system, a collection module, and a central processing unit.
The housing 1 adopts a conventional structure to achieve support and installation. The heat exchanger and the fan system are installed inside the housing 1, in which the fan system is mounted on top of the heat exchanger. The fan system includes a fan and a fan circuit control system, and when the fan rotates, it drives cold air to pass through a heat exchanger to accomplish heat exchange in the heat exchanger. In the present invention, the fan system and heat exchanger are common commercially available equipment.

The collection module is a temperature sensor used to collect the temperature of the cooling medium in the heat exchanger. Preferably, the temperature sensor is installed at the water outlet of the heat exchanger to collect the problem after the cooling medium has cooled down and make further decisions. The collection module is electrically connected to the central processing unit and transmits the collected temperature data to the central processing unit in real time.
Further, the central processing unit is electrically connected to the fan system and all the heat exchange systems, and controls the forward and reverse rotation of the fan system and the operating efficiency of the heat exchange system.

The present invention mainly includes multiple heat exchange systems. The heat exchange system includes a housing 1, a collection module, and a central processing unit. A heat exchanger and a fan system are installed inside the housing 1, the fan system is installed on the top of the heat exchanger and is used to suck in cooling air, and the heat exchanger is used as a heat dissipation medium. Used for heat exchange. The central processing unit globally adjusts the operation of each cooling fan blowing in the opposite direction according to the cooling effect to ensure the cooling effect and the effect of blowing in the opposite direction, thereby reducing the temperature of the water passing through each fan. By detecting the degree of clogging and determining the corresponding clogging status of the mesh plate, the cooling effect can be predicted if one or more fans are reduced in combination with the current environmental conditions. Some fans operating at high power reduce the coolant temperature to a lower value, which in turn allows a few fans to provide cooling and the remaining fans to perform a reverse blowing motion. Blow away dandelion fluff, etc. This may solve to some extent the problem that the net plate is clogged with cotton wool, dandelion fluff, etc. and the cooling effect is reduced.

In this embodiment, a rotating ring 3 and rotating blades 5 are also arranged between the heat exchanger and the electric fan system. The rotating ring 3 is rotatably connected inside the casing 1, but this example does not limit the manner of rotational connection, and a ball is placed between the rotating ring 3 and the casing 1 for rotational operation. Alternatively, there is a possibility of arranging the support and the rotating shaft inside the housing 1 and connecting the rotating ring 3 to the inside of the rotating shaft.

A plurality of rotating blades 5 are provided, and all of them are connected reversibly inside the rotating ring 3. What needs to be noted is that when the installation area of the rotating blades 5 becomes smaller than the inner ring area of the rotating ring 3, the wind blown in the opposite direction by the electric fan system will flow out from this gap. The rotating blade 5 is further connected to a power system used to rotate the rotating blade 5.

The arrangement of the rotary blades 5 is such that the fan blades are inverted due to the structure of the electric fan itself, so that the wind blowing in the opposite direction is smaller than the wind blowing in the forward direction. When the rotary blade 5 is rotated to open and close the air passage, a crack can be left behind. If it is necessary to blow in the opposite direction, when the rotary blades 5 rotate to block the air passage, the wind generated from the fan passes only through the cracks and blows into the heat exchanger, resulting in a blow in the opposite direction. Wind power is concentrated in one place to ensure the strength of the wind. This increases the wind pressure and improves the effectiveness of blowing away clogs. When it is no longer necessary to blow in the opposite direction, the rotary blade 5 is rotated 90 degrees to open the air passage and operate normally.

If the position of the tear does not move, the removal effect on the bottom of the heat exchanger will be very bad, and in order to achieve a good removal effect only on a part, in another embodiment, the power system is connected to the transmission ring 2, and a power source for rotating the transmission ring 2.
The power source includes an electric machine 4 and a second gear 8, the second gear 8 is connected to the output end of the electric machine 4, the second gear 8 meshes with the transmission ring 2, and the electric machine 4 is electrically connected to the central processing unit. Connecting.

The transmission ring 2 may be rotatably connected inside the housing in the same manner as the rotary ring 3 is rotatably connected. A first gear 6 is provided on the upper part of the rotating ring 3, the first gear 6 is connected to a rotating shaft, the rotating shaft is rotatably connected to the rotating ring 3, and the rotating blade 5 is fixedly connected to the rotating shaft. The transmission ring 2 rotates according to the rotation of the rotating shaft, and the bottom of the transmission ring 2 meshes with the first gear 6.
Furthermore, both the bottom of the transmission ring 2 and the top of the rotating ring 3 are provided with position limiting members 7. When the rotation of the transmission ring 2 brings the upper and lower adjacent position restriction members 7 into contact with each other and rotates the rotation ring 3, the position restriction member 7 completes the movement of the crack that is not obstructed by the rotation vane 5 in the rotation ring 3. The purpose is to

What needs to be taken into consideration is that the distance between two adjacent position limiting members 7 located on the same side is just right for rotating the rotary blade 5 by 90 degrees and then stopping it. This distance can be adjusted according to actual use.
Specifically, the rotating blade 5 is in a vertical state for the first time, and after the electric machine 4 is started, when the electric machine 4 rotates the second gear 8 via the transmission ring 2, the first gear meshing with the transmission ring 2 is rotated. 6 rotates and rotates the rotating blade 5 by 90 degrees. The rotating blade 5 is in a horizontal state, the air passage is closed, and when the position limiting member 7 of the transmission ring 2 just contacts the position limiting member 7 of the rotating ring 3, they are prevented from continuing to rotate relative to each other. Thereafter, the electric machine 4 continues to rotate, causing the transmission ring 2 and the rotating ring 3 to rotate together, and thus rotating the crack relative to the mesh plate. After completing one blow in the opposite direction, the electricity 4 is reversed, rotates the transmission ring 2 with respect to the rotating ring 3, and rotates the rotating blade 5 by 90 degrees to open the air passage. Immediately, the position limiting member 7 of the transmission ring 2 just contacts the position limiting member 7 of the rotating ring 3, preventing them from continuing to rotate relative to each other.

The above content is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and those skilled in the art can make various changes and modifications to the present invention. Changes, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the protection scope of the present invention.

1-Housing; 2-Electric Hall; 3-Buying conversion; 4-Electricity; 5-Rotor blade; 6-First gear; 7-First limiting member; 8-Second gear

Claims (5)

having a plurality of heat exchange systems, the heat exchange system comprising:
a casing having inside thereof a heat exchanger used for heat exchange of a heat dissipation medium, and an electric fan system provided above the heat exchanger and used for sucking cooling air;
a collection module used to collect the heat dissipation medium temperature of the heat exchanger;
a central processing unit electrically connected to the heat exchange system, the collection module, and the fan system and used to control forward and reverse rotation of the fan system and operating efficiency of the heat exchange system;
The SVG cooling system is characterized by: A rotating ring and rotating blades are further provided between the heat exchanger and the electric fan, the rotating ring is slidably connected to the housing, and the rotating blades are arranged in number so as to surround the center of the rotating ring. the rotary vanes are rotatably connected to the rotary ring, and the installation area of the rotary vanes is smaller than the inner circular area of the rotary ring;
the rotary vane is further connected to a power system that rotates the rotary vane;
SVG cooling system according to claim 1, characterized in that: The power system includes a transmission ring and a power source used to rotate the transmission ring, the transmission ring is rotatably connected inside the housing, and the first gear is connected to the top of the rotation ring. the bottom of the transmission ring meshes with the first gear, the first gear is connected to the rotation blade via a rotation shaft, and a plurality of position limiting members are provided between the bottom of the rotation ring and the transmission ring. Provided on both upper sides,
3. The SVG cooling system according to claim 2. 4. The SVG cooling system according to claim 3, wherein a distance between two adjacent position limiting members located on the same side allows for 90 degree rotation of the rotating blade. The power source includes an electric machine and a second gear, the second gear is connected to an output end of the electric machine, the second gear meshes with the transmission ring, and the electric machine is electrically connected to the central processing unit. do,
5. The SVG cooling system according to claim 4.