CN-121993998-A - Full-environment process cooling water system

CN121993998ACN 121993998 ACN121993998 ACN 121993998ACN-121993998-A

Abstract

The invention relates to the technical field of cooling water systems, in particular to a full-environment process cooling water system which comprises a bottom frame, wherein a frame is arranged on the upper surface of the bottom frame, a cooling water component is arranged in a space formed by the bottom frame and the frame, an end plate is arranged at the upper part of one side surface of the frame, the end plate is arranged in parallel with a second side plate, a round opening is formed in one surface of the end plate, a cooling fan is arranged at the inner side of the round opening, the cooling fan is connected with the end plate, a current regulating piece is arranged at one side of the cooling fan, which is away from the round opening, and the current regulating piece is electrically connected with the cooling fan for regulating the working current of the cooling fan.

Inventors

ZHANG YONG
TIAN MAOQUAN
YAN YA

Assignees

格鼎机电有限公司

Dates

Publication Date: 20260508
Application Date: 20260205

Claims (10)

1. A full environment process cooling water system, comprising: The device comprises a bottom frame (100), wherein a frame (101) is arranged on the upper surface of the bottom frame, a plurality of top plates (1012) are uniformly arranged on the top of the frame (101), a plurality of first side plates (1011) are uniformly arranged on two parallel side surfaces of the frame (101), a plurality of air inlet holes are formed in the lower part of one side surface of the first side plate (1011), a plurality of second side plates (1013) are arranged on two side surfaces of the frame (101) adjacent to the first side plate (1011), and a cooling water component is arranged in a space formed by the bottom frame (100) and the frame (101); An end plate (200) mounted on an upper portion of one side of the frame (101), the end plate (200) being arranged in parallel with the second side plate (1013), one side of the end plate (200) being provided with a circular opening; A heat radiation fan (500) arranged at the inner side of the circular opening, wherein the heat radiation fan (500) is connected with the end plate (200); The current adjusting piece is arranged on one side, deviating from the circular opening, of the cooling fan (500), and the current adjusting piece is electrically connected with the cooling fan (500) and used for adjusting the working current of the cooling fan (500).
2. The full environment process cooling water system according to claim 1, wherein the cooling water assembly comprises a water chilling unit (300), the water chilling unit (300) is installed in a space formed by the underframe (100) and the frame (101), the water chilling unit (300) is arranged on one side, close to the cooling fan (500), of the space formed by the underframe (100) and the frame (101), an energy storage tank (400) is installed on one side, far away from the water chilling unit (300), of the space formed by the underframe (100) and the frame (101), a plurality of groups of cooling water pumps (301) are connected between the water chilling unit (300) and the energy storage tank (400) through pipelines, a plurality of groups of chilled water pumps (401) are connected between the energy storage tank (400) through pipelines, and the chilled water pumps (401) and the cooling water pumps (301) are all arranged in the space formed by the underframe (100) and the frame (101).
3. The full environment process cooling water system of claim 2, wherein the current adjusting part comprises a resistor (600), the resistor (600) is arranged on one side, away from the round opening, of the cooling fan (500), the resistor (600) is horizontally arranged, a conductive sliding sleeve (601) is sleeved on the resistor (600), one end of the resistor (600) is electrically connected with the cooling fan (500), the conductive sliding sleeve (601) is connected with a power supply wire, the resistor (600) is connected with the cooling fan (500) through a support, and a temperature control mechanism for driving the conductive sliding sleeve (601) to move along the resistor (600) is connected to the support.
4. The full environment process cooling water system according to claim 3, wherein the temperature control mechanism comprises a heat conduction barrel (700), the heat conduction barrel (700) is connected to the support, the heat conduction barrel (700) is arranged in parallel with the resistor (600), an L-shaped rod (703) is arranged at the upper position of the outer surface of the conductive sliding sleeve (601), a first piston (7031) is arranged at the horizontal part of the L-shaped rod (703), the first piston (7031) is slidably arranged in the heat conduction barrel (700), a plugging assembly is arranged at one end, far away from the L-shaped rod (703), of the heat conduction barrel (700), mercury (704) is injected into the heat conduction barrel (700), the mercury (704) is arranged between the first piston (7031) and the plugging assembly, and a reset assembly is arranged between the heat conduction barrel (700) and the L-shaped rod (703).
5. The full environment process cooling water system of claim 4, wherein the reset assembly comprises a compression spring (800), the compression spring (800) is arranged on the lower side of the heat conduction cylinder (700), the compression spring (800) is arranged in parallel with the heat conduction cylinder (700), one end of the compression spring (800) is connected with one end of the heat conduction cylinder (700) close to the resistor (600), one end of the compression spring (800) far away from the heat conduction cylinder (700) is connected with a linkage rod (803), and one end of the linkage rod (803) far away from the compression spring (800) is connected with one end of the L-shaped rod (703) located on the outer side of the heat conduction cylinder (700).
6. The full environment process cooling water system of claim 5, wherein a first positioning sleeve (8021) and a second positioning sleeve (8011) are respectively sleeved at two ends of the compression spring (800), one end of the first positioning sleeve (8021) is fixedly connected with a first lug plate (802), the first lug plate (802) is installed at one end, close to the resistor (600), of the heat conducting cylinder (700), one end of the second positioning sleeve (8011) is fixedly connected with a second lug plate (801), the second lug plate (801) is in sliding contact with the heat conducting cylinder (700), and one end, far away from the L-shaped rod (703), of the linkage rod (803) is fixedly connected with the second lug plate (801).
7. The cooling water system for the full environment process according to claim 5, wherein the plugging assembly comprises an end cover (701), a connecting ring (7011) is installed at one end, far away from the resistor (600), of the heat conducting cylinder (700), the connecting ring (7011) is connected with the end cover (701) through a plurality of groups of bolts, a threaded hole is formed in the middle of one surface of the end cover (701), a screw (702) is connected with the threaded hole in a threaded mode, a second piston (7022) is installed at one end of the screw (702), the second piston (7022) is slidably installed in the heat conducting cylinder (700), mercury (704) is arranged between the first piston (7031) and the second piston (7022), a handle (7021) is installed at one end, far away from the second piston (7022), of the screw (702), and a plurality of vent holes (7012) communicated with the inner space of the heat conducting cylinder (700) are formed in one surface of the end cover (701).
8. The full environment process cooling water system of claim 7, wherein a connecting plate (7013) is arranged at the lower part of the outer surface of the end cover (701), the connecting plate (7013) is of an L-shaped structure, one end of the connecting plate (7013) far away from the end cover (701) is connected with a bracket, and a strip-shaped opening (7014) for limiting the movement track of a power supply wire is formed in the upper surface of the horizontal part of the connecting plate (7013).
9. The cooling water system according to claim 8, wherein the support comprises an insulating ring (602), the insulating ring (602) is mounted at one end of the resistor (600) close to the cooling fan (500), one end of the connecting plate (7013) far away from the end cover (701) is connected with the insulating ring (602), a support arm (6021) is mounted at the upper position of the outer surface of the insulating ring (602), a connecting arm (6022) is mounted at one end of the support arm (6021) far away from the insulating ring (602), and the connecting arm (6022) is connected with the cooling fan (500) through fasteners formed by two groups of second screws (603) and second nuts (6031).
10. The full environment process cooling water system of claim 9, wherein a convex ring (501) connected with the end plate (200) is arranged on the inner side of the circular opening, the convex ring (501) is arranged between the end plate (200) and the cooling fan (500), a net disc (201) is arranged on one side, away from the convex ring (501), of the circular opening, and the net disc (201), the end plate (200), the convex ring (501) and the cooling fan (500) are connected with a fastener formed by a plurality of groups of first screws (502) and first nuts (5021).

Description

Full-environment process cooling water system Technical Field The invention relates to the technical field of cooling water systems, in particular to a full-environment process cooling water system. Background The combined process refrigerating system is used as an integrated solution in the field of industrial cooling, and has the core advantages that key equipment and components such as a water chilling unit, a chilled water pump, a cooling water pump, an energy storage system, control and conveying are subjected to standardized prefabricated processing and accurate assembly in a factory, and are integrated into a special frame or box body to form an integral product with a compact structure and complete functions. The integrated design thoroughly changes the mode of scattered installation and complicated debugging of the traditional process cooling water machine room, realizes systematic layout, intelligent control and integrated operation of the machine room, greatly improves the installation efficiency and operation stability, and is widely suitable for the cooling requirements of various industrial production. In order to ensure the stable operation of equipment integrated in the frame, a plurality of side plates can be assembled on the side surface of the frame to form a relatively closed protection space, so that the internal equipment is protected from the interference of external environment, and the pipeline layout can be regulated. The water chilling unit is used as a system cold source core, heat can be continuously generated during working, and if the heat is accumulated in a closed space, the operation efficiency of equipment is affected, and even faults are caused. Therefore, in the industry, a cooling fan is generally installed in a cavity formed by the side plate and the frame, and heat is discharged through forced air exhaust, so that the proper working temperature in the interior is maintained. The running state of the water chilling unit needs to be dynamically adjusted according to the cooling load of the production process, the water chilling unit is not in a working state at any time, the heat generated by the water chilling unit can be obviously reduced even without additional heat dissipation in a period of low load or shutdown, and the cooling fan in the traditional design always keeps a continuous running state, and maintains a fixed rotating speed for exhausting no matter whether the water chilling unit generates heat or not and how much heat is generated. The one-cut operation mode causes that the fan still consumes electric energy when the equipment is in low load or is stopped, so that energy waste is caused, the whole energy consumption of the system can be increased after long-term operation, and the energy-saving and consumption-reducing industrial production requirements are not met. Disclosure of Invention Aiming at the defects existing in the prior art, the invention aims to provide a full-environment process cooling water system so as to solve the problems in the background art. In order to achieve the purpose, the invention is realized by the following technical scheme that the full-environment process cooling water system comprises: The device comprises a bottom frame, a plurality of first side plates, a plurality of second side plates, a cooling water component and a cooling water component, wherein the frame is arranged on the upper surface of the bottom frame, the top of the frame is uniformly provided with the plurality of top plates, the two parallel side surfaces of the frame are uniformly provided with the plurality of first side plates, the lower part of one side surface of the first side plate is provided with the plurality of air inlet holes, the two side surfaces of the frame adjacent to the first side plate are respectively provided with the plurality of second side plates, and the space formed by the bottom frame and the frame is internally provided with the cooling water component; the end plate is arranged at the upper part of one side surface of the frame, the end plate and the second side plate are arranged in parallel, and a round opening is formed in one surface of the end plate; the cooling fan is arranged at the inner side of the round opening and is connected with the end plate; the current adjusting piece is arranged on one side of the cooling fan, which is away from the round opening, and the current adjusting piece is electrically connected with the cooling fan and used for adjusting the working current of the cooling fan. Specifically, the cooling water component comprises a water chiller, the water chiller is installed in the space formed by the chassis and the frame, the water chiller is arranged on one side, close to the radiator fan, of the space formed by the chassis and the frame, an energy storage tank is installed on one side, far away from the water chiller, of the space formed by the chassis and the frame, a plurality of groups of