CN219498697U - Cooling energy-saving device - Google Patents

Abstract

The utility model discloses a cooling energy-saving device, and relates to the field of cooling equipment. The utility model provides a cooling economizer, includes the switch board still: the water tank is fixedly connected above the inside of the power distribution cabinet; the water pump is fixedly connected to the upper end of the power distribution cabinet; the cooling water pipe is arranged inside the power distribution cabinet, and the water inlet of the cooling water pipe is communicated with the water outlet of the water tank; the water outlet pipe is arranged in the power distribution cabinet and positioned in front of the water tank, and the water inlet of the water outlet pipe is communicated with the water outlet of the cooling water pipe; compared with the cooling treatment mode of cooling liquid through the refrigerating assembly in the prior art, the cooling treatment device can drive the cooling fan blade group to rotate by utilizing the flow of the cooling liquid on the premise of ensuring good heat dissipation and cooling of the power distribution equipment, so that the cooling liquid can be cooled without adding other refrigerating assemblies driven by electric power, and the cooling treatment device is energy-saving and environment-friendly.

Description

Cooling energy-saving device

Technical Field

The utility model belongs to the technical field of cooling equipment, and particularly relates to a cooling energy-saving device.

Background

Along with the continuous development of the power industry, the power cabinet is widely applied, and is a cabinet which is formed by processing steel materials and used for protecting components from working normally, and comprises a hot-rolled steel plate power cabinet, a cold-rolled steel plate power cabinet and the like.

The cooling device in the prior art generally adopts an air cooling or water cooling mode to cool, and the water cooling effect is higher than that of air cooling, so that the water cooling device is widely applied, but when the water cooling device is operated, a refrigerator is required to cool the cooling liquid, so that more electric quantity can be used undoubtedly, the energy saving effect is lower, and the utility model is provided in view of the fact.

Disclosure of Invention

The technical problem to be solved by the utility model is to overcome the defects of the prior art and provide a cooling energy-saving device which can overcome the problems or at least partially solve the problems.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that: the utility model provides a cooling economizer, includes the switch board still: the water tank is fixedly connected above the inside of the power distribution cabinet; the water pump is fixedly connected to the upper end of the power distribution cabinet; the cooling water pipe is arranged inside the power distribution cabinet, and the water inlet of the cooling water pipe is communicated with the water outlet of the water tank; the water outlet pipe is arranged in the power distribution cabinet and positioned in front of the water tank, and the water inlet of the water outlet pipe is communicated with the water outlet of the cooling water pipe; the water outlet of the guide pipe is communicated with a water suction pipe of the water pump; the water outlet pipe is communicated with the diversion pipe through a plurality of radiating water pipes; the radiating fan blade group is rotationally connected to one side of the water tank, which is close to the radiating water pipe, through a rotating shaft; a water return pipe at the water outlet of the water pump extends into the water tank; the hydraulic transmission assembly is used for driving the rotating shaft to rotate and is arranged in the water tank and positioned at the water outlet of the water return pipe; and a shutter ventilation opening is formed in the side wall, close to the heat dissipation water pipe, of the power distribution cabinet.

In order to be convenient for need not electric power alright drive heat dissipation flabellum group and rotate, further, hydraulic drive subassembly includes transfer line, impeller, first gear and second gear, the transfer line rotates and connects one side that is close to the pivot at the water tank inner wall, the impeller is circumference equidistant fixed connection on the transfer line, the impeller is located the below of wet return delivery port, the one end of heat dissipation flabellum group is kept away from in the pivot to second gear fixed connection, first gear fixed connection is on the transfer line, and with the second gear meshes mutually.

In order to facilitate the rapid heat conduction of the cooling liquid to the outside of the radiating water pipe, a plurality of radiating fins are fixedly connected to the radiating water pipe at equal intervals along the circumference.

In order to facilitate the further improvement of the air cooling of the heat conducted out of the radiating fins, two groups of rotating shafts, second gears and radiating fan blade groups are symmetrically arranged.

In order to facilitate the omnibearing heat dissipation treatment of the power distribution equipment, the cooling water pipe is further spirally arranged.

In order to be convenient for more fully carry out heat dissipation cooling to distribution equipment and handle, furthermore, the lower extreme fixedly connected with hydraulic lifting column of switch board, the inside lower extreme of switch board is equipped with the mounting bracket for the distribution equipment, the flexible end fixed connection of mounting bracket and hydraulic lifting column, the switch board lower extreme is located the both sides symmetry fixedly connected with direction telescopic link of hydraulic lifting column, the upper end and the mounting bracket fixed connection of direction telescopic link, the position that the front of switch board is close to the mounting bracket rotates to be connected with the cabinet door.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects: compared with the cooling treatment mode of cooling liquid through the refrigerating assembly in the prior art, the cooling treatment device can utilize the flow of the cooling liquid to drive the cooling fan blade assembly to rotate on the premise of ensuring good heat dissipation and cooling of power distribution equipment through the matching use of the heat dissipation water pipe, the rotating shaft, the cooling fan blade assembly and the hydraulic transmission assembly, so that the cooling liquid can be cooled without adding other refrigerating assemblies driven by electric power, the cooling treatment device is energy-saving and environment-friendly, the contact area of the cooling liquid and wind power can be increased through the arrangement of the plurality of heat dissipation water pipes, the cooling treatment of the cooling liquid can be more fully realized, and the cooling effect of the cooling liquid is effectively improved.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a schematic front view of a cooling and energy saving device according to the present utility model;

FIG. 2 is a schematic diagram of a cooling and energy saving device according to the present utility model;

FIG. 3 is a schematic diagram of a water tank and a heat dissipating fan blade set in a cooling and energy saving device according to the present utility model;

FIG. 4 is a schematic diagram of a water tank, a heat dissipating fan blade set, a rotating shaft and a hydraulic transmission assembly in a cooling and energy saving device according to the present utility model;

fig. 5 is a schematic structural diagram of a heat dissipating water pipe and a heat dissipating fin in the cooling energy saving device according to the present utility model.

In the figure: 1. a power distribution cabinet; 101. a cabinet door; 102. a louver vent; 103. a hydraulic lifting column; 104. a guiding telescopic rod; 105. a mounting frame; 2. a water tank; 201. a water pump; 202. a flow guiding pipe; 203. a heat dissipation water pipe; 204. a water outlet pipe; 205. a cooling water pipe; 206. a heat radiation fin; 3. a transmission rod; 301. a blade; 302. a first gear; 303. a rotating shaft; 304. a second gear; 305. and a heat dissipation fan blade group.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model, but are not intended to limit the scope of the present utility model.

Example 1:

referring to fig. 1 to 5, a cooling and energy saving device includes a power distribution cabinet 1, and further includes: the water tank 2 is fixedly connected above the inside of the power distribution cabinet 1; the water pump 201 is fixedly connected to the upper end of the power distribution cabinet 1; the cooling water pipe 205 is arranged in the power distribution cabinet 1, and the water inlet of the cooling water pipe 205 is communicated with the water outlet of the water tank 2; the water outlet pipe 204 is arranged in the power distribution cabinet 1 and positioned in front of the water tank 2, and a water inlet of the water outlet pipe 204 is communicated with a water outlet of the cooling water pipe 205; the water outlet of the draft tube 202 is communicated with a water suction tube of the water pump 201; the water outlet pipe 204 is communicated with the diversion pipe 202 through a plurality of radiating water pipes 203; a heat radiation fan blade group 305 rotatably connected to one side of the water tank 2 near the heat radiation water pipe 203 through a rotation shaft 303; the return pipe at the water outlet of the water pump 201 extends into the water tank 2; the hydraulic transmission component is used for driving the rotating shaft 303 to rotate and is arranged in the water tank 2 and positioned at the water outlet of the water return pipe; a shutter ventilation opening 102 is formed in the side wall, close to the heat radiation water pipe 203, of the power distribution cabinet 1;

the hydraulic transmission assembly comprises a transmission rod 3, a blade 301, a first gear 302 and a second gear 304, wherein the transmission rod 3 is rotationally connected to one side, close to a rotating shaft 303, of the inner wall of the water tank 2, the blade 301 is circumferentially and uniformly spaced and fixedly connected to the transmission rod 3, the blade 301 is located below a water outlet of the water return pipe, the second gear 304 is fixedly connected to one end, far away from a heat dissipation fan blade group 305, of the rotating shaft 303, and the first gear 302 is fixedly connected to the transmission rod 3 and meshed with the second gear 304.

When the power distribution equipment installed in the power distribution cabinet 1 works to generate heat or the weather temperature is too high, the power distribution equipment needs to be subjected to heat dissipation and temperature reduction treatment so as to ensure that the power distribution equipment can normally operate, the water pump 201 can be started at the moment, because the cooling water pipe 205 is arranged below the water tank 2, cooling liquid in the water tank 2 flows into the cooling water pipe 205 under the action of gravity, when the water pump 201 works, the cooling liquid in the cooling water pipe 205 enters the water outlet pipe 204, the cooling liquid in the water outlet pipe 204 flows into the plurality of radiating water pipes 203 respectively, so that the cooling liquid with the temperature being increased can be split and then converged into the guide pipe 202, and then flows back into the water tank 2 through the water return pipe at the water outlet of the water pump 201, because the blade 301 is arranged below the water outlet of the water return pipe, the blade 301 rotates under the impact of water flow, so that the first gear 302 can be driven to rotate by the transmission rod 3, the first gear 302 drives the rotating shaft 303 to rotate by the meshed and connected second gear 304, the rotating shaft 303 drives the heat dissipation fan blade group 305 to rotate and blow air to the heat dissipation water pipe 203, cooling liquid passing through the heat dissipation water pipe 203 can be cooled, circulating flow of the cooling liquid can be realized by continuously controlling the water pump 201 to perform automatic heat absorption and heat dissipation treatment, the cooling liquid entering the cooling water pipe 205 can be ensured to be always at a lower temperature, and the heat dissipation and cooling effect on power distribution equipment is effectively improved;

through the cooperation of heat dissipation water pipe 203, pivot 303, heat dissipation flabellum group 305 and hydraulic drive subassembly is used, compare with the mode that carries out the cooling treatment to the coolant liquid through refrigeration subassembly among the prior art, under the prerequisite of guaranteeing to carry out good heat dissipation cooling to distribution equipment, can utilize the flow of coolant liquid, drive heat dissipation flabellum group 305 and rotate, thereby need not to increase other refrigeration subassembly alright cooling treatment to the coolant liquid that relies on electric drive, energy-concerving and environment-protective, through setting up many heat dissipation water pipes 203, can increase the area of contact of coolant liquid and wind-force, thereby alright more abundant cooling treatment to the coolant liquid, the cooling effect to the coolant liquid has been improved effectively.

Example 2:

referring to fig. 1 to 5, a cooling and energy saving device is substantially the same as embodiment 1, and further comprises: the plurality of radiating fins 206 are fixedly connected to the plurality of radiating water pipes 203 at equal intervals along the circumference, and the radiating fins 206 are arranged on the radiating water pipes 203, so that when the cooling liquid passes through the radiating water pipes 203, the radiating fins 206 can rapidly guide out the heat of the cooling liquid to the outside of the radiating water pipes 203, and the radiating fan blade group 305 can cool the cooling liquid more effectively;

the rotating shaft 303, the second gear 304 and the heat dissipation fan blade group 305 are symmetrically provided with two groups, and the heat dissipation fin 206 can be further improved to cool the heat by symmetrically arranging the two groups of rotating shafts 303, the second gear 304 and the heat dissipation fan blade group 305, so that the cooling effect on the cooling liquid can be further improved.

Example 3:

referring to fig. 1 to 5, a cooling and energy saving device is substantially the same as embodiment 2, and further comprises: the cooling water pipe 205 is in a spiral arrangement, and the cooling water pipe 205 is in a spiral arrangement, so that power distribution equipment can be installed at the middle position of the cooling water pipe 205 during installation, and therefore, after water is introduced into the cooling water pipe 205, the power distribution equipment can be subjected to heat dissipation treatment in an omnibearing manner, and the heat dissipation effect is effectively improved.

The lower extreme fixedly connected with hydraulic lifting column 103 of switch board 1, the inside lower extreme of switch board 1 is equipped with mounting bracket 105 for the distribution equipment, mounting bracket 105 and hydraulic lifting column 103's flexible end fixed connection, switch board 1 lower extreme is located hydraulic lifting column 103's both sides symmetry fixedly connected with direction telescopic link 104, the upper end and the mounting bracket 105 fixed connection of direction telescopic link 104, the position that the front of switch board 1 is close to mounting bracket 105 rotates and is connected with cabinet door 101, when installing distribution equipment into switch board 1, at first, open cabinet door 101, and make mounting bracket 105 be located the below, then the installation staff alright install distribution equipment on mounting bracket 105, then alright start hydraulic lifting column 103, hydraulic lifting column 103 just can upwards move mounting bracket 105 under the cooperation of direction telescopic link 104, then mounting bracket 105 can drive distribution equipment and upwards move to spiral cooling water pipe 205 in the middle of, thereby after cooling water pipe 205 lets in the coolant liquid, can cool down the distribution equipment more step, the cooling treatment has been carried out to the distribution equipment more, the effect has been improved more step by step.

The above description is only of the preferred embodiments of the present utility model, and is not intended to limit the present utility model in any way, although the present utility model has been described in the preferred embodiments, and is not limited thereto.

Claims (6)

1. The utility model provides a cooling economizer, includes switch board (1), its characterized in that still includes:

the water tank (2) is fixedly connected above the inside of the power distribution cabinet (1);

the water pump (201) is fixedly connected to the upper end of the power distribution cabinet (1);

the cooling water pipe (205) is arranged inside the power distribution cabinet (1), and a water inlet of the cooling water pipe (205) is communicated with a water outlet of the water tank (2);

the water outlet pipe (204) is arranged in the power distribution cabinet (1) and positioned in front of the water tank (2), and a water inlet of the water outlet pipe (204) is communicated with a water outlet of the cooling water pipe (205);

a draft tube (202), the water outlet is communicated with a water suction tube of the water pump (201);

the water outlet pipe (204) is communicated with the diversion pipe (202) through a plurality of radiating water pipes (203);

the radiating fan blade group (305) is rotationally connected to one side of the water tank (2) close to the radiating water pipe (203) through a rotating shaft (303);

a water return pipe at the water outlet of the water pump (201) extends into the water tank (2);

the hydraulic transmission assembly is used for driving the rotating shaft (303) to rotate and is arranged in the water tank (2) and positioned at the water outlet of the water return pipe;

the side wall of the power distribution cabinet (1) close to the heat dissipation water pipe (203) is provided with a shutter ventilation opening (102).

2. A cooling economizer according to claim 1 wherein: the hydraulic transmission assembly comprises a transmission rod (3), a blade plate (301), a first gear (302) and a second gear (304), wherein the transmission rod (3) is rotationally connected to one side, close to a rotating shaft (303), of the inner wall of the water tank (2), the blade plate (301) is fixedly connected to the transmission rod (3) at equal intervals in the circumference, the blade plate (301) is located below a water outlet of the water return pipe, the second gear (304) is fixedly connected to one end, far away from a heat dissipation fan blade group (305), of the rotating shaft (303), and the first gear (302) is fixedly connected to the transmission rod (3) and meshed with the second gear (304).

3. A cooling and energy saving device according to claim 2, wherein: a plurality of radiating fins (206) are fixedly connected to the radiating water pipes (203) at equal intervals along the circumference.

4. A cooling and energy saving device according to claim 3, wherein: the rotating shaft (303), the second gear (304) and the heat dissipation fan blade group (305) are symmetrically provided with two groups.

5. A cooling economizer according to claim 1 wherein: the cooling water pipe (205) is spirally arranged.

6. The cooling economizer of claim 5 wherein: the power distribution cabinet is characterized in that the lower end of the power distribution cabinet (1) is fixedly connected with a hydraulic lifting column (103), the lower end of the inside of the power distribution cabinet (1) is provided with a mounting frame (105) for power distribution equipment, the mounting frame (105) is fixedly connected with the telescopic end of the hydraulic lifting column (103), the lower end of the power distribution cabinet (1) is positioned on two sides of the hydraulic lifting column (103) and is fixedly connected with a guiding telescopic rod (104), the upper end of the guiding telescopic rod (104) is fixedly connected with the mounting frame (105), and the front face of the power distribution cabinet (1) is close to the position of the mounting frame (105) and is rotationally connected with a cabinet door (101).