CN114552449B

CN114552449B - Noise reduction type intelligent cooling box-type substation

Info

Publication number: CN114552449B
Application number: CN202210130715.3A
Authority: CN
Inventors: 朱胜军; 徐�明; 金泽
Original assignee: Hangzhou Huachuang High Tech Co ltd
Current assignee: Hangzhou Huachuang High Tech Co ltd
Priority date: 2022-02-12
Filing date: 2022-02-12
Publication date: 2024-06-04
Anticipated expiration: 2042-02-12
Also published as: CN114552449A

Abstract

The invention discloses a noise-reduction type intelligent cooling box-type transformer substation, which comprises a rack, a transformer substation box body fixedly arranged on the rack, an air extraction assembly fixedly arranged on the rack, a first driving part fixedly arranged on the rack and used for driving the air extraction assembly to move, a compression assembly fixedly arranged on the rack and used for compressing cold air, a second driving part fixedly arranged on the rack and used for driving the compression assembly to move, a cooling assembly movably arranged on the transformer substation box body, an auxiliary assembly fixedly arranged on the transformer substation box body and a refrigerator fixedly arranged on the rack, wherein the first driving part is used for driving the air extraction assembly to move; the invention can cool the box-type substation in all aspects, adjust the distance of the cold air according to the internal structure, ensure that the box-type substation can be cooled sufficiently, increase the speed of the cold air, ensure the box-type substation to be cooled sufficiently, and control the rotating speed of the motor to control the cooling speed of the box-type substation.

Description

Noise reduction type intelligent cooling box-type substation

Technical Field

The invention belongs to the technical field of substations, and particularly relates to a noise-reduction type intelligent cooling box-type substation.

Background

The box-type substation is placed outdoors, under the sun exposure, can lead to the temperature of box-type substation too high, at this moment, if not in time cool down, causes the damage of the inside equipment of box-type substation's casing easily. The cooling effect of current transformer substation is relatively poor, can not effectively cool off according to inner structure when box-type substation is inside, and the wind speed is not big, leads to the cooling effect not good to the distance is fixed when current cooling arrangement cools off, can not more efficient cool off box-type substation, becomes the difficult problem that needs to solve urgently.

Disclosure of Invention

The invention provides a noise-reduction type intelligent cooling box-type transformer substation for overcoming the defects of the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides an intelligent cooling box-type substation of making an uproar falls which characterized in that: the device comprises a rack, a transformer substation box body fixedly arranged on the rack, an air extraction assembly fixedly arranged on the rack, a first driving part fixedly arranged on the rack and used for driving the air extraction assembly to move, a compression assembly fixedly arranged on the rack and used for compressing cold air, a second driving part fixedly arranged on the rack and used for driving the compression assembly to move, a cooling assembly movably arranged on the transformer substation box body, an auxiliary assembly fixedly arranged on the transformer substation box body and a refrigerator fixedly arranged on the rack; the transformer substation box body comprises a body and a first chute fixedly arranged on the body.

The air extraction assembly further comprises an air supply block fixedly arranged on the frame, a swinging block rotationally arranged on the air supply block, a first pushing block fixedly arranged on the swinging block and a first fixing block fixedly arranged on the swinging block; the air supply block comprises a first block body, a first pipeline and a second pipeline which are fixedly arranged on the first block body, and a groove which is fixedly arranged on the first block body.

The first driving part comprises a first rotating shaft, a first motor, a first eccentric block, a first push rod, a second push rod, a first spring and a first spring, wherein the first rotating shaft is arranged on the frame in a rotating mode, the first motor is fixedly arranged on the frame and used for driving the first rotating shaft to rotate, the first eccentric block is fixedly arranged on the first rotating shaft, the first rotating block is arranged on the first eccentric block in a rotating mode, the first push rod is fixedly arranged on the first rotating block, one end of the first push rod is rotatably arranged on the other end of the first rotating block, the second push rod is movably arranged on the first push block, and the first spring is fixedly arranged on the other end of the first fixing block.

Further the compression subassembly is including fixed compression piece in locating the frame, the first push pedal on the compression piece of movable locating, the fixed first fixed axle of locating on the first push pedal, the second push pedal on the fixed axle of movable locating, the second spring on both ends fixed locating first fixed axle and the second push pedal respectively, the fixed first guide block of locating on the compression piece, the movable third push pedal of locating on the first guide block, the movable fourth push pedal of locating on the compression piece, the fixed second push pedal of locating on the fourth push pedal, the fixed first check valve of locating on the compression piece.

The second driving part comprises a third push rod fixedly arranged on the first rotating shaft, a second rotating shaft rotationally arranged on the frame, a fifth push block fixedly arranged on the second rotating shaft and matched with the third push rod, a second guide block fixedly arranged on the second rotating shaft, a second fixing block fixedly arranged on the frame, and a sixth push block movably arranged on the second fixing block and matched with the second guide block.

The fifth pushing block further comprises a second block body and a second sliding groove arranged on the second block body; the sixth pushing block comprises a third block body and a third sliding groove fixedly arranged on the third block body.

The cooling assembly comprises a seventh push block movably arranged on the transformer substation box body, a cooling block movably arranged on the seventh push block, a first telescopic rod and a third guide block fixedly arranged on the cooling block, a fourth guide block fixedly arranged on the first telescopic rod, a first telescopic plate and a second telescopic plate fixedly arranged on the cooling block, an air inlet block movably arranged on the transformer substation box body and an air inlet pipe fixedly arranged on the air inlet block; the seventh pushing block comprises a fourth block body and a fourth sliding groove fixedly arranged on the fourth block body.

The cooling assembly further comprises a gear box fixedly arranged on the frame, a third rotating shaft rotationally arranged on the gear box, a fourth push rod fixedly arranged on the seventh push block and movably arranged on the transformer substation box body, a first connecting rod fixedly arranged on the third rotating shaft, and a second connecting rod with two ends respectively rotationally arranged on the fourth push rod and the first connecting rod.

The auxiliary assembly comprises an exhaust block fixedly arranged on the transformer substation box body, a piston movably arranged on the exhaust block, a guide pillar fixedly arranged on the air inlet block, a rack fixedly arranged on the guide pillar, a fourth rotating shaft and a fifth rotating shaft which are rotatably arranged on the transformer substation box body, a gear fixedly arranged on the fifth rotating shaft and meshed with the rack, a synchronous belt with two ends respectively wound on the fourth rotating shaft and the fifth rotating shaft, a second eccentric block fixedly arranged on the fourth rotating shaft, and a third connecting rod with one end rotatably arranged on the second eccentric block and the other end rotatably arranged on the piston; the exhaust block comprises a fifth block body, an air inlet pipeline, an air outlet pipeline, a second one-way valve and a third one-way valve, wherein the air inlet pipeline and the air outlet pipeline are fixedly arranged on the fifth block body, the second one-way valve is fixedly arranged on the air inlet pipeline, and the third one-way valve is fixedly arranged on the air outlet pipeline.

The auxiliary assembly further comprises an air pumping block rotationally arranged on the transformer substation box body, a telescopic rod fixedly arranged on the cooling block, connecting blocks with two ends fixedly arranged on the telescopic rod and the air pumping block respectively, a second motor fixedly arranged on the transformer substation box body, a stop block fixedly arranged on the second motor and a sound insulation plate fixedly arranged on the transformer substation box body; the air extraction block comprises a sixth block body and a plurality of through holes which are arrayed at equal intervals and fixedly arranged on the sixth block body.

The invention can cool the box-type transformer substation in all aspects, can adjust the distance of the cold air according to the internal structure, ensures that the box-type transformer substation can be sufficiently cooled, increases the speed of the cold air, ensures that the box-type transformer substation is sufficiently cooled, and ensures that the faster the motor rotates, the faster the cooling speed of the box-type transformer substation.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a front view of the present invention.

Fig. 4 is a cross-sectional view A-A of fig. 2.

Fig. 5 is a B-B cross-sectional view of fig. 2.

Fig. 6 is a C-C cross-sectional view of fig. 2.

Fig. 7 is a D-D cross-sectional view of fig. 2.

Fig. 8 is an enlarged view at a of fig. 1.

Fig. 9 is an enlarged view at B of fig. 1.

Fig. 10 is an enlarged view at C of fig. 4.

Fig. 11 is an enlarged view of D of fig. 4.

Fig. 12 is an enlarged view at E of fig. 5.

Fig. 13 is an enlarged view at F of fig. 6.

Fig. 14 is an enlarged view at G of fig. 7.

Fig. 15 is an enlarged view at H of fig. 13.

Detailed Description

As shown in fig. 1-15, a noise reduction type intelligent cooling box-type substation is characterized in that: the device comprises a frame 1, a transformer substation box body 2 fixedly arranged on the frame, an air extraction assembly 3 fixedly arranged on the frame, a first driving part 4 fixedly arranged on the frame and used for driving the air extraction assembly to move, a compression assembly 5 fixedly arranged on the frame and used for compressing cold air, a second driving part 6 fixedly arranged on the frame and used for driving the compression assembly to move, a cooling assembly 7 movably arranged on the transformer substation box body, an auxiliary assembly 8 fixedly arranged on the transformer substation box body and a refrigerator 9 fixedly arranged on the frame; the transformer substation box body 2 comprises a body 21 and a first chute 22 fixedly arranged on the body.

The air extraction assembly 3 comprises an air supply block 31 fixedly arranged on the frame, a swinging block 32 rotatably arranged on the air supply block, a first pushing block 33 fixedly arranged on the swinging block and a first fixing block 34 fixedly arranged on the swinging block; the air supply block 31 includes a first block 311, a first pipe 312 and a second pipe 313 fixedly provided on the first block, and a groove 314 fixedly provided on the first block.

The first driving part 4 includes a first rotating shaft 41 rotatably disposed on the frame, a first motor 42 fixedly disposed on the frame and used for driving the first rotating shaft to rotate, a first eccentric block 43 fixedly disposed on the first rotating shaft, a first rotating block 44 rotatably disposed on the first eccentric block, a first push rod 45 fixedly disposed on the first rotating block, a second push rod 46 having one end rotatably disposed on the first rotating block and the other end movably disposed on the first push rod, and a first spring 47 having one end fixedly disposed on the first fixed block 34 and the other end fixedly disposed on the second push rod.

The compression assembly 5 comprises a compression block 51 fixedly arranged on the frame, a first push plate 52 movably arranged on the compression block, a first fixed shaft 53 fixedly arranged on the first push plate, a second push block 54 movably arranged on the first fixed shaft, a second spring 55 with two ends fixedly arranged on the first fixed shaft and the second push block respectively, a first guide block 56 fixedly arranged on the compression block, a third push block 57 movably arranged on the first guide block, a fourth push block 58 movably arranged on the compression block, a second push plate 59 fixedly arranged on the fourth push block and a first check valve 591 fixedly arranged on the compression block.

The second driving part 6 includes a third push rod 61 fixedly arranged on the first rotating shaft, a second rotating shaft 62 rotatably arranged on the frame, a fifth push block 63 fixedly arranged on the second rotating shaft and matched with the third push rod, a second guide block 64 fixedly arranged on the second rotating shaft, a second fixing block 65 fixedly arranged on the frame, and a sixth push block 66 movably arranged on the second fixing block and matched with the second guide block.

The fifth pushing block 63 includes a second block 631 and a second chute 632 provided on the second block; the sixth pushing block 66 includes a third block 661 and a third sliding groove 662 fixedly provided on the third block.

The cooling assembly 7 comprises a seventh push block 71 movably arranged on the transformer substation box body, a cooling block 72 movably arranged on the seventh push block, a first telescopic rod 73 and a third guide block 731 fixedly arranged on the cooling block, a fourth guide block 74 fixedly arranged on the first telescopic rod, a first telescopic plate 75 and a second telescopic plate 76 fixedly arranged on the cooling block, an air inlet block 77 movably arranged on the transformer substation box body and an air inlet pipe 78 fixedly arranged on the air inlet block; the seventh pushing block 71 includes a fourth block 711 and a fourth chute 712 fixedly disposed on the fourth block.

The cooling assembly 7 further comprises a gear box 78 fixedly arranged on the frame, a third rotating shaft 781 rotatably arranged on the gear box, a fourth push rod 782 fixedly arranged on the seventh push block and movably arranged on the transformer substation box, a first connecting rod 783 fixedly arranged on the third rotating shaft, and a second connecting rod 784 with two ends respectively rotatably arranged on the fourth push rod and the first connecting rod.

The auxiliary assembly 8 comprises an exhaust block 81 fixedly arranged on the transformer substation box body, a piston 82 movably arranged on the exhaust block, a guide column 83 fixedly arranged on the air inlet block, a rack 84 fixedly arranged on the guide column, a fourth rotating shaft 85 and a fifth rotating shaft 851 which are rotatably arranged on the transformer substation box body, a gear 841 fixedly arranged on the fifth rotating shaft and meshed with the rack, a synchronous belt 86 with two ends respectively wound on the fourth rotating shaft and the fifth rotating shaft, a second eccentric block 87 fixedly arranged on the fourth rotating shaft, and a third connecting rod 88 with one end rotatably arranged on the second eccentric block and the other end rotatably arranged on the piston; the exhaust block 81 includes a fifth block 811, an air inlet pipe 812 and an air outlet pipe 813 fixedly arranged on the fifth block, a second check valve 814 fixedly arranged on the air inlet pipe, and a third check valve 815 fixedly arranged on the air outlet pipe.

The auxiliary assembly 8 further comprises an air extraction block 89 rotationally arranged on the transformer substation box body, a telescopic rod 891 fixedly arranged on the cooling block, a connecting block 892 with two ends fixedly arranged on the telescopic rod and the air extraction block respectively, a second motor 893 fixedly arranged on the transformer substation box body, a stop block 894 fixedly arranged on the second motor and a sound insulation plate 895 fixedly arranged on the transformer substation box body; the air extraction block 89 comprises a sixth block 896, a plurality of through holes 897 which are equidistantly arrayed and fixedly arranged on the sixth block.

The first motor drives the first rotating shaft to rotate, the first rotating shaft rotates to drive the first eccentric block to rotate, the first eccentric block rotates to drive the first push rod to reciprocate, the first eccentric block rotates to drive the second push block to swing, the first push rod pumps cold air of the refrigerator to the first pipeline and then transits the cold air to the second pipeline, the first rotating shaft simultaneously drives the third push rod to rotate, the third push rod rotates to drive the fifth push block to rotate through the second sliding groove, the second rotating shaft rotates to drive the second guide block to rotate, the second guide block is provided with the third sliding groove, the second guide block rotates to drive the sixth push block to reciprocate up and down along the third sliding groove, the sixth push block moves to drive the first push plate to move, the first fixed shaft moves to drive the third push block to move, thereby driving the fourth pushing block to move, thereby driving the second pushing plate to make relative movement with the first pushing plate, compressing the cold air of the compression block, applying pressure to the cold air to make the cold air come out of the cooling block to cool the box-type transformer substation better, because the noise of air compression equipment on the market is large, the noise generated by air compression is reduced, and the second rotating shaft drives the third rotating shaft to rotate through the gear box when rotating, thereby driving the first connecting rod to rotate, the first connecting rod to drive the second connecting rod to rotate, thereby driving the fourth pushing rod to reciprocate, the fourth pushing rod reciprocates to drive the seventh pushing block to reciprocate, thereby driving the cooling block to move along the fourth sliding groove on the seventh pushing block, and one end of the cooling block is provided with the fourth guide block, the seventh pushing block moves to drive the cooling block to move up and down and rotate along the transformer substation box, therefore, the box-type transformer substation is cooled, because the cooling block moves along the fourth sliding groove on the seventh pushing block, the cooling distance can be adjusted according to the structure of the box-type transformer substation when the cooling block cools the box-type transformer substation, and because the cooling block compresses cold air, the cooling speed of the cooling block is faster, the box-type transformer substation is cooled more effectively, meanwhile, the cooling block can be driven to move up and down when moving up and down, thereby driving the guide pillar to move, the guide pillar moves to drive the rack to move, thereby driving the gear to rotate, the gear rotates the fifth rotating shaft, the fifth rotating shaft rotates to drive the fourth gear to rotate through the synchronous belt, the fourth gear rotates to drive the piston to reciprocate, thereby extracting gas from the box-type transformer substation and refluxing to the refrigerator, thereby enabling the box-type transformer substation to be cooled better, and the air extracting block is connected with the cooling block through the connecting block, when the cooling temperature is reached, the second motor can drive the baffle to rotate to enable the blocked through hole to be opened, the cold air to flow back to the refrigerator, the energy conservation of the equipment is increased, and the first motor rotates to drive the gear to rotate faster, and the cooling block is cooled more rapidly, and the box-type transformer substation can be cooled.

Claims

1. The utility model provides an intelligent cooling box-type substation of making an uproar falls which characterized in that: the device comprises a frame (1), a transformer substation box body (2) fixedly arranged on the frame, an air extraction assembly (3) fixedly arranged on the frame, a first driving part (4) fixedly arranged on the frame and used for driving the air extraction assembly to move, a compression assembly (5) fixedly arranged on the frame and used for compressing cold air, a second driving part (6) fixedly arranged on the frame and used for driving the compression assembly to move, a cooling assembly (7) movably arranged on the transformer substation box body, an auxiliary assembly (8) fixedly arranged on the transformer substation box body and a refrigerator (9) fixedly arranged on the frame; the transformer substation box body (2) comprises a body (21) and a first chute (22) fixedly arranged on the body; the air extraction assembly (3) comprises an air supply block (31) fixedly arranged on the frame, a swinging block (32) rotatably arranged on the air supply block, a first pushing block (33) fixedly arranged on the swinging block and a first fixing block (34) fixedly arranged on the swinging block; the air supply block (31) comprises a first block (311), a first pipeline (312) and a second pipeline (313) which are fixedly arranged on the first block, and a groove (314) which is fixedly arranged on the first block; the first driving part (4) comprises a first rotating shaft (41) which is rotationally arranged on the frame, a first motor (42) which is fixedly arranged on the frame and is used for driving the first rotating shaft to rotate, a first eccentric block (43) which is fixedly arranged on the first rotating shaft, a first rotating block (44) which is rotationally arranged on the first eccentric block, a first push rod (45) which is fixedly arranged on the first rotating block, a second push rod (46) which is rotationally arranged on the other end of the first rotating block and is movably arranged on the first push rod, and a first spring (47) which is fixedly arranged on the other end of the first fixed block (34) and is fixedly arranged on the second push rod; the compression assembly (5) comprises a compression block (51) fixedly arranged on the frame, a first push plate (52) movably arranged on the compression block, a first fixed shaft (53) fixedly arranged on the first push plate, a second push block (54) movably arranged on the first fixed shaft, second springs (55) with two ends fixedly arranged on the first fixed shaft and the second push block respectively, a first guide block (56) fixedly arranged on the compression block, a third push block (57) movably arranged on the first guide block, a fourth push block (58) movably arranged on the compression block, a second push plate (59) fixedly arranged on the fourth push block and a first one-way valve (591) fixedly arranged on the compression block; the second driving part (6) comprises a third push rod (61) fixedly arranged on the first rotating shaft, a second rotating shaft (62) rotatably arranged on the frame, a fifth push block (63) fixedly arranged on the second rotating shaft and matched with the third push rod, a second guide block (64) fixedly arranged on the second rotating shaft, a second fixed block (65) fixedly arranged on the frame, and a sixth push block (66) movably arranged on the second fixed block and matched with the second guide block; the fifth pushing block (63) comprises a second block body (631) and a second sliding groove (632) arranged on the second block body; the sixth pushing block (66) comprises a third block (661) and a third chute (662) fixedly arranged on the third block; the cooling assembly (7) comprises a seventh push block (71) movably arranged on the transformer substation box body, a cooling block (72) movably arranged on the seventh push block, a first telescopic rod (73) and a third guide block (731) fixedly arranged on the cooling block, a fourth guide block (74) fixedly arranged on the first telescopic rod, a first telescopic plate (75) and a second telescopic plate (76) fixedly arranged on the cooling block, an air inlet block (77) movably arranged on the transformer substation box body and an air inlet pipe (78) fixedly arranged on the air inlet block; the seventh pushing block (71) comprises a fourth block body (711) and a fourth sliding groove (712) fixedly arranged on the fourth block body.

2. The noise-reducing intelligent cooling box-type substation according to claim 1, wherein: the cooling assembly (7) further comprises a gear box (78) fixedly arranged on the frame, a third rotating shaft (781) rotationally arranged on the gear box, a fourth push rod (782) fixedly arranged on the seventh push block and movably arranged on the transformer substation box body, a first connecting rod (783) fixedly arranged on the third rotating shaft, and a second connecting rod (784) with two ends respectively rotationally arranged on the fourth push rod and the first connecting rod.

3. The noise-reducing intelligent cooling box-type substation according to claim 1, wherein: the auxiliary assembly (8) comprises an exhaust block (81) fixedly arranged on the transformer substation box body, a piston (82) movably arranged on the exhaust block, a guide column (83) fixedly arranged on the air inlet block, a rack (84) fixedly arranged on the guide column, a fourth rotating shaft (85) and a fifth rotating shaft (851) which are rotatably arranged on the transformer substation box body, a gear (841) fixedly arranged on the fourth rotating shaft and meshed with the rack, a synchronous belt (86) with two ends respectively wound on the fourth rotating shaft and the fifth rotating shaft, a second eccentric block (87) fixedly arranged on the fourth rotating shaft, and a third connecting rod (88) with one end rotatably arranged on the other end of the second eccentric block and rotatably arranged on the piston; the exhaust block (81) comprises a fifth block (811), an air inlet pipeline (812) and an air outlet pipeline (813) which are fixedly arranged on the fifth block, a second one-way valve (814) which is fixedly arranged on the air inlet pipeline, and a third one-way valve (815) which is fixedly arranged on the air outlet pipeline.

4. The noise-reducing intelligent cooling box-type substation according to claim 1, wherein: the auxiliary assembly (8) further comprises an air extraction block (89) rotationally arranged on the transformer substation box body, a telescopic rod (891) fixedly arranged on the cooling block, connecting blocks (892) with two ends fixedly arranged on the telescopic rod and the air extraction block respectively, a second motor (893) fixedly arranged on the transformer substation box body, a stop block (894) fixedly arranged on the second motor and a sound insulation plate (895) fixedly arranged on the transformer substation box body; the air extraction block (89) comprises a sixth block (896) and a plurality of through holes (897) which are arrayed at equal intervals and fixedly arranged on the sixth block.