CN113178807A

CN113178807A - Container transformer substation capable of ventilating in all weather

Info

Publication number: CN113178807A
Application number: CN202110582983.4A
Authority: CN
Inventors: 王青; 朱永扬
Original assignee: Anhui Derun Electric & Technology Co ltd
Current assignee: Anhui Derun Electric & Technology Co ltd
Priority date: 2021-05-27
Filing date: 2021-05-27
Publication date: 2021-07-27
Anticipated expiration: 2041-05-27
Also published as: CN113178807B

Abstract

The invention relates to the field of container substations, in particular to a container substation with ventilation in all weather. It includes: the container comprises a container body and a ventilation window, wherein the ventilation window is embedded in the container body; the louver includes: a plurality of hidden partitions positioned at the upper part of the louver main body; the water collecting partition plate is positioned below the hidden partition plate and moves downwards under the influence of gravity in rainy days. The invention aims to solve the problem that heat dissipation and cooling for an electric appliance cannot be realized simultaneously in sunny days and rainy days by utilizing the matching of a hidden partition plate, a water collecting partition plate, a first movable partition plate and a second movable partition plate.

Description

Container transformer substation capable of ventilating in all weather

Technical Field

The invention relates to the field of container substations, in particular to a container substation with ventilation in all weather.

Background

The container type transformer substation organically combines the functions of transformer voltage reduction, low-voltage distribution and the like, is installed in a moisture-proof, rust-proof, dust-proof, rat-proof, fire-proof, anti-theft, heat-insulating, totally-enclosed and movable container, and is particularly suitable for urban network construction and transformation.

The existing container type transformer substation is generally of a closed structure for safety, more heating devices are arranged in the existing container type transformer substation, and therefore a ventilation window needs to be arranged for heat dissipation, however, the ventilation window is arranged on the outer side of a box body of the traditional container type transformer substation for direct heat dissipation, rainwater easily enters the box body to damage electrical appliances in rainy days, and heat dissipation and cooling for the electrical appliances in sunny days and rainy days cannot be achieved.

Disclosure of Invention

The present invention has been made in view of the above problems, and an object of the present invention is to solve the problem that heat dissipation and temperature reduction for electric appliances cannot be achieved simultaneously in sunny days and rainy days by using a combination of a hidden partition, a water-collecting partition, a first movable partition and a second movable partition, and to achieve the above objects by the following technical solutions:

a weather-proof ventilated container substation, comprising: the container comprises a container body and a ventilation window, wherein the ventilation window is embedded in the container body;

the louver includes: a plurality of hidden partitions positioned at the upper part of the louver main body; the water collecting partition plate is positioned below the hidden partition plate and moves downwards under the influence of gravity in rainy days; the first movable partition plate is positioned below the water collecting partition plate and moves downwards along with the water collecting partition plate; a second movable clapboard which is positioned below the first movable clapboard and moves downwards together with the first movable clapboard; the outer frame limits the hidden partition plate, the water collecting partition plate, the first movable partition plate, the second movable partition plate to move up and down and move downwards for the maximum distance, and the outer cover accommodates the hidden partition plate;

when the amount of rainwater is not limited in the water collection partition plate, the spring arranged between the water collection partition plate, the first movable partition plate and the second movable partition plate pushes the hidden partition plate, the water collection partition plate, the first movable partition plate and the second movable partition plate to recover to a normal ventilation state.

The invention has the beneficial effects that:

1. through setting up the baffle that catchments for can expose hiding the baffle automatically when the rainy day, make the ventilation interval diminish, thereby the rainwater can not advance inside the box, so no matter fine day, rainy day can all realize good ventilation effect.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a front view of the louver in sunny days of the present invention.

Fig. 3 is a left side view of the hidden spacer of the present invention.

Fig. 4 is a left side view of the water collecting separator of the present invention.

FIG. 5 is a left side view of the first movable partition of the present invention.

FIG. 6 is a left side view of the second movable partition of the present invention.

Fig. 7 is a right side view of the outer frame of the present invention.

Fig. 8 is a front view of the louver in the rainy weather of the present invention.

Description of the drawings:

1. a container body; 2. a ventilation window; 21. hiding the partition board; 22. a water collecting partition plate; 23. moving the first partition plate; 24. moving the second clapboard; 25. an outer frame; 211. a step plate; 212. a stepped plate rotating shaft; 213. a sector; 214. a circular shaft of the step plate; 215. a step plate slider; 216. a circular hole of the sliding block; 217. a sector hole; 221. a water collection tank; 222. a water collection tank slider; 223. a pull rod; 224. a pull rod circular hole; 225. a water collection tank circular shaft; 231. a first clapboard; 232. a first clapboard sliding block; 233. a first hollow shaft; 234. a first spring; 235. a first baffle circular shaft; 241. a second clapboard; 242. a second clapboard sliding block; 243. a hollow shaft II; 244. a second spring; 245. a second clapboard round shaft; 246. a third spring; 251. a chute; 252. a first limiting bulge; 253. a second limiting bulge; 254. a third limiting bulge; 255. a first limiting groove; 256. a second limiting groove; 257. a third limiting groove; 258. an outer frame hollow shaft; 259. a housing.

Detailed Description

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings however, the present invention may be embodied in various forms, and thus, the present invention is not limited to the embodiments described hereinafter, and in addition, components not connected to the present invention will be omitted from the drawings for the sake of clearer description of the present invention;

as shown in fig. 1, a weather-proof container substation includes: a container body 1 and a ventilation window 2;

the ventilating window 2 is positioned in the middle of the container body 1, and the ventilating window 2 is embedded in the container body 1 and used for ventilating;

as shown in fig. 2, the louver 2 includes: the hidden clapboard 21, the water collecting clapboard 22, the first movable clapboard 23, the second movable clapboard 24 and the outer frame 25;

the hidden partition plates 21 are positioned at the upper part of the main body of the ventilation window 2, the number of the hidden partition plates is three, and the hidden partition plates 21 do not ventilate in sunny days;

as shown in fig. 3, the hidden partition 21 includes: the step plate 211, the step plate rotating shaft 212, the sector 213, the step plate circular shaft 214, the step plate sliding block 215, the sliding block circular hole 216 and the sector hole 217;

the left and right weights of the stepped plate 211 are different, and when the stepped plate 211 is not limited, the stepped plate 211 can automatically rotate towards the left weight;

the stepped plate rotating shaft 212 is positioned at two sides of the stepped plate 211, the stepped plate rotating shaft 212 and the stepped plate 211 are integrated, and the stepped plate 211 and the stepped plate rotating shaft 212 rotate together;

the sector 213 and the stepped plate rotating shaft 212 are integrated, and the sector 213 and the stepped plate rotating shaft 212 rotate together;

the stepped plate circular shaft 214 is positioned in front of the stepped plate rotating shaft 212, and the stepped plate circular shaft 214 and the stepped plate rotating shaft 212 are integrated;

the step plate sliding block 215 is positioned behind the step plate circular shaft 214;

the slider round hole 216 is positioned in the middle of the inner part of the stepped plate slider 215, the slider round hole 216 is matched with the stepped plate rotating shaft 212, and the stepped plate rotating shaft 212 can rotate in the slider round hole 216;

the fan-shaped hole 217 is positioned above the inner part of the stepped plate sliding block 215, the fan-shaped hole 217 is matched with the fan-shaped body 213, and the fan-shaped body 213 swings in the fan-shaped hole 217 to limit the rotating angle of the stepped plate 211;

as shown in fig. 2, the water collecting partition 22 is positioned below the hidden partition 21, and the collected water can move downwards in rainy days;

as shown in fig. 4, the water collecting separator 22 includes: a water collecting groove 221, a water collecting groove slider 222, a pull rod 223, a pull rod round hole 224 and a water collecting groove round shaft 225;

the edge of the water collecting tank 221 is flush with the horizontal line, so that water can be collected in rainy days;

the water collecting tank sliding blocks 222 are positioned at two sides of the water collecting tank 221, and the water collecting tank sliding blocks 222 and the water collecting tank 221 are integrated;

the pull rod 223 is positioned above the water collecting tank sliding block 222, and the pull rod 223 and the water collecting tank sliding block 222 are integrated;

the pull rod round hole 224 is positioned above the inner part of the pull rod 223, the pull rod round hole 224 is matched with the stepped plate rotating shaft 212, and the pull rod round hole 224 drives the stepped plate rotating shaft 212 to move synchronously;

the water collecting tank round shaft 225 is positioned in front of the water collecting tank sliding block 222;

as shown in fig. 2, the first movable partition 23 is positioned below the water collecting partition 22;

as shown in fig. 5, the first movable partition 23 includes: a first partition 231, a first partition slider 232, a first hollow shaft 233, a first spring 234 and a first partition circular shaft 235;

the first partition plate 231 is positioned below the water collecting tank 221;

the first partition plate slide block 232 is positioned at two sides of the first partition plate 231;

the first hollow shaft 233 is positioned above the first partition plate sliding block 232, and the first hollow shaft 233 and the first partition plate sliding block 232 are integrated;

the first spring 234 is positioned inside the first hollow shaft 233, the two first springs 234 are arranged in front of and behind the first partition plate 231, the top end of the first spring 234 is connected with the upper water collecting tank sliding block 222, and the bottom end of the first spring 234 is fixed with the first partition plate sliding block 232;

the first separator circular shaft 235 is positioned in front of the first separator sliding block 232, the first separator circular shaft 235 and the first separator sliding block 232 are integrated, and the diameter of the first separator circular shaft 235 is smaller than that of the water collecting tank circular shaft 225;

as shown in fig. 2, the second movable partition 24 is located below the first movable partition 23;

as shown in fig. 6, the second movable partition 24 includes: a second partition plate 241, a second partition plate slide block 242, a second hollow shaft 243, a second spring 244, a second partition plate circular shaft 245 and a third spring 246;

the space distribution and the structure of the second partition board 241, the second partition board slide block 242 and the second hollow shaft 243 are completely the same as those of the first partition board 231, the first partition board slide block 232 and the first hollow shaft 233;

the second spring 244 is positioned inside the second hollow shaft 243, the two second springs 244 are arranged in front of and behind the second partition board 241, the top end of the second spring 244 is connected with the first partition board slide block 232 above, and the bottom end of the second spring 244 is fixed with the second partition board slide block 242;

the second separator circular shaft 245 is positioned in front of the second separator sliding block 242, the second separator circular shaft 245 and the second separator sliding block 242 are integrated, and the diameter of the second separator circular shaft 245 is smaller than that of the first separator circular shaft 235;

the top end of the third spring 246 is fixed with the second clapboard slide block 242, and the number of the third spring 246 is also two in front of and behind the second clapboard 241;

as shown in fig. 7, the outer frame 25 includes: the outer frame comprises a sliding groove 251, a first limiting protrusion 252, a second limiting protrusion 253, a third limiting protrusion 254, a first limiting groove 255, a second limiting groove 256, a third limiting groove 257, an outer frame hollow shaft 258 and an outer cover 259;

the chute 251 is matched with the stepped plate sliding block 215, the water collecting tank sliding block 222, the first partition plate sliding block 232 and the second partition plate sliding block 242, and the stepped plate sliding block 215, the water collecting tank sliding block 222, the first partition plate sliding block 232 and the second partition plate sliding block 242 can slide up and down in the chute 251;

the first limiting bulge 252 is matched with the circular shaft 225 of the water collecting tank, so that the water collecting partition plate 22 is limited to fall in the state of FIG. 2;

the second limiting protrusion 253 is made of rubber, the second limiting protrusion 253 is matched with the first baffle circular shaft 235, the first movable baffle 23 is limited to fall in the state of fig. 2, and the diameter of the second limiting protrusion 253 is larger than that of the first limiting protrusion 252;

the third limiting bulge 254 is made of rubber, the third limiting bulge 254 is matched with the second baffle circular shaft 245 to limit the second movable baffle 24 from falling under the state shown in fig. 2, and the diameter of the third limiting bulge 254 is larger than that of the second limiting bulge 253;

the first limiting groove 255 is made of rubber, and in the state shown in fig. 8, the first limiting groove 255 is matched with the circular shaft 225 of the water collecting tank to limit the water collecting partition plate 22 to fall down;

the second limiting groove 256 is made of rubber, in the state shown in fig. 8, the second limiting groove 256 is matched with the first baffle circular shaft 235 to limit the first movable baffle 23 to fall, and the diameter of the second limiting groove 256 is smaller than that of the first limiting groove 255;

the third limiting groove 257 is made of rubber, in the state shown in fig. 8, the third limiting groove 257 is matched with the second clapboard round shaft 245 to limit the second movable clapboard 24 to fall, and the diameter of the third limiting groove 257 is smaller than that of the second limiting groove 256;

the outer frame hollow shaft 258 is positioned below the third limiting groove 257, and a third spring 246 is accommodated in the outer frame hollow shaft 258;

the housing 259 houses a hidden partition 21 therein.

The working principle of the invention is as follows:

in rainy days, as shown in fig. 8, rainwater is concentrated in the water collecting tank 221, so that the water collecting tank 221 moves downwards due to the gravity of water, the water collecting tank slider 222 moves downwards to press the first spring 234, the water collecting tank slider 222 continues to move downwards to abut against the first hollow shaft 233, so that the first hollow shaft 233, the first partition slider 232, the first spring 234, the first hollow shaft 233 and the first partition slider 232 move downwards until the water collecting tank circular shaft 225, the first partition circular shaft 235 and the second partition circular shaft 245 are respectively matched with the first limit groove 255, the second limit groove 256 and the third limit groove 257, at this time, as the water collecting tank slider 222 moves downwards, the pull rod 223 on the water collecting tank slider 222 simultaneously pulls the stepped plate rotating shaft 212 to move downwards, so that the hidden partition plate 21 moves downwards to be separated from the limit of the outer cover 259, as shown in fig. 2, the hidden partition plate 21 rotates leftwards due to cause the gravity, the sector 213 rotates leftwards, the sector 213 is limited to stop to the angle parallel to the lower water collecting partition plate 22 by the sector 217, finally, the hidden partition plate 21 moves downwards and is completely separated from the outer cover 259, and the ventilation interval is reduced, so that rainwater cannot enter the container body 1, and ventilation in rainy days is realized;

in sunny days, when rainwater in the water collecting tank 221 is dried or the amount of rainwater is small, the water collecting tank 221 moves upwards due to the elasticity of the first spring 234, the hidden partition plate 21, the water collecting partition plate 22, the first movable partition plate 23 and the second movable partition plate 24 move upwards integrally until the first limiting bulge 252, the second limiting bulge 253 and the third limiting bulge 254 are matched with the first limiting bulge 252, the second limiting bulge 253 and the third limiting bulge 254 respectively, the hidden partition plate 21 rotates rightwards due to the limitation of the outer cover 259 in the upwards moving process, and is finally collected into the outer cover 259, and at the moment, the rainwater is normally ventilated through the interval among the first water collecting partition plate 22, the first movable partition plate 23 and the second movable partition plate 24.

Claims

1. A weather-proof ventilated container substation, comprising: the container comprises a container body (1) and a ventilating window (2), wherein the ventilating window (2) is embedded in the container body (1);

the method is characterized in that: the louver (2) comprises: a plurality of hidden partitions (21) positioned on the upper part of the main body of the ventilation window (2); a water collecting partition plate (22) which is positioned below the hidden partition plate (21) and moves downwards under the influence of gravity in rainy days; a first movable clapboard (23) which is positioned below the water collecting clapboard (22) and moves downwards together with the water collecting clapboard (22); a second movable partition plate (24) which is positioned below the first movable partition plate (23) and moves downwards together with the first movable partition plate (23); and an outer frame (25) defining a hidden partition (21), a water collecting partition (22), a first movable partition (23), a second movable partition (24) moving up and down and a maximum distance of downward movement, and a housing (259) accommodating the hidden partition (21);

when the limited rainwater amount is not reached in the water collection partition plate (22), the spring arranged among the water collection partition plate (22), the first movable partition plate (23) and the second movable partition plate (24) pushes the hidden partition plate (21), the water collection partition plate (22), the first movable partition plate (23) and the second movable partition plate (24) to recover the normal ventilation state.

2. A weather-proof ventilated container substation according to claim 1, characterized in that: the concealed partition (21) comprising: the step plate (211), the step plate rotating shaft (212), the sector (213), the step plate circular shaft (214), the step plate sliding block (215), the sliding block circular hole (216) and the sector hole (217).

3. A weather-proof ventilated container substation according to claim 2, characterized in that: the left weight and the right weight of the stepped plate (211) are different, and when the stepped plate (211) is not limited, the stepped plate can automatically rotate towards the direction of some left weights; the stepped plate rotating shaft (212) is positioned at two sides of the stepped plate (211), the stepped plate rotating shaft (212) and the stepped plate (211) are integrated, and the stepped plate (211) and the stepped plate rotating shaft (212) rotate together; the sector (213) and the stepped plate rotating shaft (212) are integrated, and the sector (213) and the stepped plate rotating shaft (212) rotate together; the stepped plate circular shaft (214) is positioned in front of the stepped plate rotating shaft (212), and the stepped plate circular shaft (214) and the stepped plate rotating shaft (212) are integrated; the step plate sliding block (215) is positioned behind the step plate circular shaft (214); the sliding block round hole (216) is positioned in the middle of the inner part of the stepped plate sliding block (215), the sliding block round hole (216) is matched with the stepped plate rotating shaft (212), and the stepped plate rotating shaft (212) can rotate in the sliding block round hole (216); the fan-shaped hole (217) is located above the inner portion of the stepped plate sliding block (215), the fan-shaped hole (217) is matched with the fan-shaped body (213), and the fan-shaped body (213) swings in the fan-shaped hole (217) to limit the rotating angle of the stepped plate (211).

4. A weather-proof ventilated container substation according to claim 1, characterized in that: the water-collecting baffle (22) comprising: the water collecting tank comprises a water collecting tank (221), a water collecting tank sliding block (222), a pull rod (223), a pull rod round hole (224) and a water collecting tank round shaft (225).

5. A weather-proof ventilated container substation according to claim 4, characterized in that: the edge of the water collecting groove (221) is flush with the horizontal line; the water collecting tank sliding blocks (222) are positioned on two sides of the water collecting tank (221), and the water collecting tank sliding blocks (222) and the water collecting tank (221) are integrated; the pull rod (223) is positioned above the water collecting tank sliding block (222), and the pull rod (223) and the water collecting tank sliding block (222) are integrated; the pull rod round hole (224) is positioned above the inner part of the pull rod (223), the pull rod round hole (224) is matched with the stepped plate rotating shaft (212), and the pull rod round hole (224) drives the stepped plate rotating shaft (212) to move synchronously; the water collecting tank round shaft (225) is positioned in front of the water collecting tank sliding block (222).

6. A weather-proof ventilated container substation according to claim 1, characterized in that: the first movable partition (23) comprises: the first separator (231), the first separator slide block (232), the first hollow shaft (233), the first spring (234) and the first separator circular shaft (235).

7. A weather-proof ventilated container substation according to claim 6, characterized in that: the first partition plate (231) is positioned below the water collecting tank (221); the first partition plate sliding block (232) is positioned at two sides of the first partition plate (231); the first hollow shaft (233) is positioned above the first partition plate sliding block (232), and the first hollow shaft (233) and the first partition plate sliding block (232) are integrated; the first spring (234) is positioned inside the first hollow shaft (233), the two first springs (234) are arranged in front of and behind the first partition plate (231), the top end of the first spring (234) is connected with the upper water collecting tank sliding block (222), and the bottom end of the first spring (234) is fixed with the first partition plate sliding block (232); the first separator circular shaft (235) is located in front of the first separator sliding block (232), the first separator circular shaft (235) and the first separator sliding block (232) are integrated, and the diameter of the first separator circular shaft (235) is smaller than that of the water collecting tank circular shaft (225).

8. A weather-proof ventilated container substation according to claim 1, characterized in that: the second movable partition (24) comprises: a second partition plate (241), a second partition plate sliding block (242), a second hollow shaft (243), a second spring (244), a second partition plate circular shaft (245) and a third spring (246).

9. A weather-proof ventilated container substation according to claim 8, characterized in that: the second partition plate (241), the second partition plate slide block (242) and the second hollow shaft (243) are completely identical to the first partition plate (231), the first partition plate slide block (232) and the first hollow shaft (233) in spatial distribution and structure; the second spring (244) is positioned inside the second hollow shaft (243), the two second springs (244) are arranged in front of and behind the second partition plate (241), the top end of the second spring (244) is connected with the first partition plate sliding block (232) above, and the bottom end of the second spring (244) is fixed with the second partition plate sliding block (242); the second separator circular shaft (245) is positioned in front of the second separator sliding block (242), the second separator circular shaft (245) and the second separator sliding block (242) are integrated, and the diameter of the second separator circular shaft (245) is smaller than that of the first separator circular shaft (235); the top end of the third spring (246) is fixed with the second clapboard sliding block (242), and the third spring (246) is also arranged at the front and the back of the second clapboard (241).

10. A weather-proof ventilated container substation according to claim 1, characterized in that: the outer frame (25) includes: the device comprises a sliding groove (251), a first limiting protrusion (252), a second limiting protrusion (253), a third limiting protrusion (254), a first limiting groove (255), a second limiting groove (256), a third limiting groove (257), an outer frame hollow shaft (258) and an outer cover (259).

11. A weather-proof ventilated container substation according to claim 10, characterized in that: the sliding groove (251) is matched with the stepped plate sliding block (215), the water collecting groove sliding block (222), the first partition plate sliding block (232) and the second partition plate sliding block (242), and the stepped plate sliding block (215), the water collecting groove sliding block (222), the first partition plate sliding block (232) and the second partition plate sliding block (242) can slide up and down in the sliding groove (251); the first limiting bulge (252) is matched with the circular shaft (225) of the water collecting tank to limit the water collecting partition plate (22) to fall down; the second limiting bulge (253) is made of rubber, the second limiting bulge (253) is matched with the first circular shaft (235) of the partition plate to limit the first movable partition plate (23) to fall, and the diameter of the second limiting bulge (253) is larger than that of the first limiting bulge (252); the third limiting bulge (254) is made of rubber, the third limiting bulge (254) is matched with the second round shaft (245) of the partition plate to limit the second movable partition plate (24) to fall, and the diameter of the third limiting bulge (254) is larger than that of the second limiting bulge (253); the first limiting groove (255) is made of rubber, and the first limiting groove (255) is matched with the circular shaft (225) of the water collecting tank to limit the water collecting partition plate (22) to fall; the second limiting groove (256) is made of rubber, the second limiting groove (256) is matched with the first baffle circular shaft (235) to limit the first movable baffle (23) to fall down, and the diameter of the second limiting groove (256) is smaller than that of the first limiting groove (255); the third limiting groove (257) is made of rubber, the third limiting groove (257) is matched with the second clapboard round shaft (245) to limit the second movable clapboard (24) to fall, and the diameter of the third limiting groove (257) is smaller than that of the second limiting groove (256); the outer frame hollow shaft (258) is located below the third limiting groove (257), and the third spring (246) is accommodated in the outer frame hollow shaft (258).