CN219103771U - Circulation hydroecium external cooling equipment - Google Patents

Abstract

The utility model relates to the technical field of cooling equipment, in particular to circulating water outdoor cooling equipment, which comprises an insulation box, a fan cover and a fan, wherein the insulation box, the fan cover and the fan are sequentially screwed and fixed, a plurality of layers of heat exchange tubes are embedded in the insulation box, the heat exchange tubes are of a serpentine structure design, the heat exchange tubes are mutually parallel, the adjacent heat exchange tubes are mutually communicated, a heat radiating plate is arranged in a gap between the heat exchange tubes in a penetrating way, the circulating water outdoor cooling equipment pumps circulating water into the heat exchange tubes by a water pump in a meandering way, the meandering circulating water can conduct heat to the heat radiating plate and the reinforcing plate which are in contact with the circulating water, and the fan can blast cold air to quickly take away the heat of the heat radiating plate, the reinforcing plate and the heat exchange tubes through a heat exchanging area, so that compared with a traditional radiator, the heat radiating plate, the reinforcing plate and the heat exchange tubes are mutually parallel, and the contact area of the heat radiating plate, the reinforcing plate and the heat exchange tube is larger.

Description

Circulation hydroecium external cooling equipment

Technical Field

The utility model relates to the technical field of cooling equipment, in particular to circulating water chamber external cooling equipment.

Background

With the construction and development of cities, a circulating water cooling system becomes an indispensable part, the system corresponds to refrigeration equipment, and comprises a cooling tower positioned on the surface of a skirt house, a circulating water pump positioned on an underground two-layer, a manual electric butterfly valve, a filter, an electronic scale remover, a radiator and the like, wherein a refrigeration host is positioned on an underground one-layer, the cooling water is shared by a water supply and return main pipe, an emptying blow-down valve is arranged at the lowest position of the system, a water supply system of a water supplementing pump is additionally arranged, the start and stop of the water pump are controlled by the upper water level and the lower water level in a water collecting disc of the cooling tower, and pressure gauges are arranged on front pipelines and rear pipelines of the water pump and a water chilling unit, so that the operation of the circulating cooling system can be monitored;

the outside cooling device of traditional circulation hydroecium mainly comprises water pipe, fan and heating panel, the air-out direction of heating panel and fan is parallel, the water pipe alternates the heat dissipation between the heating panel, the area of contact between this connected mode water pipe and the heating panel is annular structure, and area of contact's width depends on the plate thickness of heating panel, this results in the area of contact between water pipe and the heating panel limited, the heat conduction effect has received the restriction, in addition, because the water pipe trend sets up with heating panel mutually perpendicular, this results in the snakelike water pipe of arranging need disassemble the back and carry out welding equipment with the heating panel, the assembly process is loaded down with trivial details, production efficiency is low.

Disclosure of Invention

The utility model aims to provide circulating water outdoor cooling equipment, which solves the problems that the contact area between a water pipe and a heat dissipation plate of the traditional circulating water outdoor cooling equipment is limited, the heat conduction effect is limited, and in addition, as the trend of the water pipe is mutually perpendicular to the heat dissipation plate, the serpentine-arrangement water pipe needs to be disassembled and then welded and assembled with the heat dissipation plate, the assembly process is complicated, and the production efficiency is low.

The technical aim of the utility model is realized by the following technical scheme:

the utility model provides a circulation hydroecium external cooling equipment, includes the insulation can, expands fan housing and fan, insulation can, expand fan housing and fan screw fixation in proper order, the insulation can is embedded to be equipped with the multilayer heat exchange tube, the heat exchange tube is serpentine structural design, the heat exchange tube is parallel arrangement each other, and adjacent intercommunication sets up between the heat exchange tube, the multilayer interlude is provided with the heating panel in the clearance between the heat exchange tube, adjacent all can dismantle between the heating panel and be connected with a plurality of reinforcing plates.

The beneficial effects are that: this outdoor cooling equipment of circulating water, the circulation of circulating water is gone into the heat exchange intraductal tortuous circulation by the water pump, the circulating water of tortuous circulation can be conducted the heat rather than on the heating panel that contacts, the reinforcing plate, the fan can blast cold air and take away heating panel, reinforcing plate, heat exchange tube's heat through the heat exchange region fast, thereby make circulating water heat dissipation, compare with traditional radiator, the heating panel, reinforcing plate and mutual parallel arrangement of heat exchange tube, make the heating panel, the contact area of reinforcing plate and heat exchange tube is bigger, the heat conduction effect is better, and during the assembly, need not to carry out complicated welding operation between heat exchange tube and heating panel, production flow has been simplified, assembly efficiency has been improved.

Further, the reinforcing plate is "cross" structural design, the upper and lower both ends of reinforcing plate all set up the arc, arc laminating heat exchange tube outer wall structural design, the equal fixedly connected with sand grip in both ends about the reinforcing plate, the heating panel lateral wall corresponds the sand grip and all is provided with the recess.

Further, the heat dissipation plates are arranged in parallel, and the thickness of the heat dissipation plates is the same as the distance between the adjacent side walls of the same heat exchange tube.

Further, a baffle is fixedly sleeved on the outer wall of the fan, and a narrow opening end of the fan cover is fixedly welded at an air outlet of the fan.

Further, a flange pipe is fixedly connected to one side end face of the heat preservation box, an adaptation groove is formed in the other side end face of the heat preservation box, and the adaptation groove adapts to the wide-mouth end structural design of the expansion hood.

Further, guide rods are fixedly connected to four corners of the adapting groove, and nuts are connected to one ends of the guide rods in a threaded mode through the air expanding cover and the baffle in sequence.

Drawings

FIG. 1 is an external view of a circulating water chamber external cooling apparatus according to the present utility model;

FIG. 2 is a top cross-sectional view of a circulating water chamber external cooling apparatus of the present utility model;

FIG. 3 is a front cross-sectional view of a circulating water chamber external cooling apparatus of the present utility model;

fig. 4 is a schematic structural view of a reinforcing plate in the circulating water chamber external cooling apparatus of the present utility model.

Reference numeral 1, an incubator; 11. a flange pipe; 12. an adaptation groove; 13. a guide rod; 2. a wind expansion cover; 3. a blower; 31. a baffle; 4. a heat exchange tube; 5. a heat dissipation plate; 51. a groove; 6. a reinforcing plate; 61. an arc-shaped plate; 62. a convex strip.

Detailed Description

The following description is only of the preferred embodiments of the present utility model, and the scope of the present utility model should not be limited to the examples, but should be construed as falling within the scope of the present utility model. It should also be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present utility model are intended to be comprehended within the scope of the present utility model.

Referring to fig. 1 to 4, the circulating water chamber external cooling device comprises an insulation box 1, a fan cover 2 and a fan 3, wherein the insulation box 1, the fan cover 2 and the fan 3 are sequentially fixed by screws, a flange pipe 11 is fixedly connected to one side end surface of the insulation box 1, an adaptation groove 12 is formed in the other side end surface of the insulation box 1, and the adaptation groove 12 is adapted to the structural design of the wide mouth end of the fan cover 2;

specifically, the flange pipe 11 is used for externally connecting an exhaust pipeline, so that cooling equipment is conveniently arranged;

alternatively, the adapting groove 12 may be circular, rectangular or other regular shape, and can be used to limit the angle of the fan housing 2, and a large sealing gasket may be placed in the adapting groove 12, so that the wide-mouth end of the fan housing 2 can press the large sealing gasket to realize sealing.

Further, guide rods 13 are fixedly connected to four corners of the adapting groove 12, and nuts are connected to one ends of the guide rods 13 in a threaded manner through the fan housing 2 and the baffle 31 in sequence;

specifically, guide bar 13 is rectangular structure and distributes, expands fan housing 2, baffle 31 four corners department and all corresponds guide bar 13 and be provided with corresponding circular slot, and during the assembly, guide bar 13 passes the circular slot in proper order, is provided with the external screw thread at guide bar 13 tip outer wall, can coupling nut, prevents to expand fan housing 2, baffle 31 and breaks away from, and the structure is firm, and the atress is even.

Further, a baffle 31 is fixedly sleeved on the outer wall of the fan 3, and a narrow opening end of the fan cover 2 is fixedly welded at an air outlet of the fan 3;

specifically, the fan cover 2 is arranged to uniformly transfer the wind power of the fan 3 into the heat insulation box 1, the fan 3 mainly comprises a bracket fixed in the shell, a motor fixed on the bracket and fan blades positioned at the output end of the motor, and is used for guiding external cold air to pass through the heat insulation box 1

Further, the heat insulation box 1 is internally provided with a plurality of layers of heat exchange tubes 4, the heat exchange tubes 4 are of a serpentine structure, the heat exchange tubes 4 are arranged in parallel, the adjacent heat exchange tubes 4 are communicated with each other, a plurality of layers of heat exchange tubes 4 are internally provided with heat dissipation plates 5 in a penetrating way, the heat dissipation plates 5 are arranged in parallel, and the thickness of the heat dissipation plates 5 is the same as the interval between the adjacent side walls of the same heat exchange tube 4;

specifically, in order to ensure the strength of the heat exchange tube 4, the cross section of the heat exchange tube 4 is in a circular structural design, the serpentine heat exchange tube 4 is formed by a plurality of U-shaped branch pipes, the branch pipes are welded or screwed into an integrated structure, and heat dissipation plates 5 are inserted into gaps of the U-shaped branch pipes, so that each heat dissipation plate 5 can be in contact with the heat exchange tube 4 for heat conduction;

preferably, the heat dissipation plate 5 and the heat exchange tube 4 can be welded at the joint to increase heat conduction capacity, or melted heat conduction silica gel can be dripped at two sides of the contact part of the heat dissipation plate 5 and the heat exchange tube 4, and the same effect can be achieved after the heat conduction silica gel is condensed;

further, a plurality of reinforcing plates 6 are detachably connected between the adjacent heat dissipation plates 5, the reinforcing plates 6 are in a cross-shaped structural design, arc plates 61 are arranged at the upper end and the lower end of each reinforcing plate 6, the arc plates 61 are attached to the structural design of the outer wall of the heat exchange tube 4, raised strips 62 are fixedly connected at the left end and the right end of each reinforcing plate 6, and grooves 51 are formed in the side walls of the heat dissipation plates 5 corresponding to the raised strips 62;

specifically, the raised strips 62 are embedded in the grooves 51 in parallel, so that the expansion of the space between the radiating plates 5 can be prevented, the assembly firmness is ensured, and the heat of the radiating plates 5 is conducted to the reinforcing plate 6;

specifically, the arc plate 61 can play a role in supporting the heat exchange tube 4 and conducting heat, so that the arc plate 61, the heat dissipation plate 5 and the heat exchange tube 4 are parallel to each other, ventilation is smooth, and heat dissipation is efficient.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides a circulation hydroecium external cooling equipment, includes insulation can (1), expands fan housing (2) and fan (3), insulation can (1), expand fan housing (2) and fan (3) screw fixation in proper order, a serial communication port, insulation can (1) are embedded to be equipped with multilayer heat exchange tube (4), heat exchange tube (4) all are serpentine structural design, heat exchange tube (4) each other parallel arrangement, and adjacent intercommunication sets up between heat exchange tube (4), the multilayer interlude is provided with heating panel (5) in the clearance between heat exchange tube (4), adjacent all can dismantle between heating panel (5) and be connected with a plurality of reinforcing plates (6).

2. The circulating water chamber external cooling apparatus of claim 1, wherein: reinforcing plate (6) are "cross structural design, the upper and lower both ends of reinforcing plate (6) all set up arc (61), arc (61) laminating heat exchange tube (4) outer wall structural design, the both ends all fixedly connected with sand grip (62) about reinforcing plate (6), heating panel (5) lateral wall corresponds sand grip (62) all and is provided with recess (51).

3. The circulating water chamber external cooling apparatus of claim 1, wherein: the heat dissipation plates (5) are arranged in parallel, and the thickness of the heat dissipation plates (5) is the same as the distance between the adjacent side walls of the same heat exchange tube (4).

4. The circulating water chamber external cooling apparatus of claim 1, wherein: the outer wall of the fan (3) is fixedly sleeved with a baffle (31), and the narrow opening end of the fan cover (2) is fixedly welded at the air outlet of the fan (3).

5. The circulating water chamber external cooling apparatus of claim 1, wherein: the heat preservation box is characterized in that a flange pipe (11) is fixedly connected to one side end face of the heat preservation box (1), an adaptation groove (12) is formed in the other side end face of the heat preservation box (1), and the adaptation groove (12) adapts to the structural design of the wide mouth end of the air expansion hood (2).

6. The circulating water chamber external cooling apparatus of claim 5, wherein: guide rods (13) are fixedly connected to four corners of the adapting groove (12), and one end of each guide rod (13) sequentially penetrates through the wind expansion cover (2) and the baffle (31) to be connected with nuts in a threaded mode.

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