CN209561963U - A kind of cooling device of the full indoor substation of overhead type - Google Patents

Abstract

The utility model relates to cooling device technical fields, and disclose a kind of cooling device of full indoor substation of overhead type, the substation of working chamber is offered including inside, working chamber offers several through-holes in the cavity wall of bottom, working chamber symmetrically offers first sliding groove in the opposite work cavity wall at top, the first sliding block is slidably connected in first sliding groove, two piece of first opposite one end of sliding block both passes through the notch of corresponding first sliding groove and extends outwardly, and it is fixedly connected with one piece of reciprocating plate jointly, reciprocating plate offers the first screw hole on the position at top, first screw hole internal screw thread is connected with the first reciprocating screw rod, the both ends of first reciprocating screw rod both pass through the aperture of the first screw hole and extend outwardly, one end of first reciprocating screw rod extends into the correspondence cavity wall of working chamber.The region that the utility model fan covers working chamber is big, and heat dissipation region is big, can radiate to whole transformer station, heat dissipation effect is obvious.

Description

A kind of cooling device of the full indoor substation of overhead type

Technical field

The utility model relates to the cooling of cooling device technical field more particularly to a kind of full indoor substation of overhead type dresses It sets.

Background technique

Substation, which refers in electric system, converts voltage and current, receives electric energy and distributes the place of electric energy, and The full indoor substation of overhead type be the installation of overhead type indoors.

But heat is inevitably generated when overhead type full indoor substation operation, as the growth of time is constantly poly- Increase, gradually rises temperature in substation, so that the working performance of substation's inner body is influenced, to the service life of each part Have a great impact, it is therefore desirable to radiating treatment be carried out to substation, common radiating mode is installation fan at present, but fan All it is to be fixedly mounted, can only radiates to region lesser in substation, the region of covering is smaller, cannot be to entire power transformation Station is radiated, and heat dissipation effect is poor.

Utility model content

Purpose of the utility model is to solve the region of the heat dissipation of existing radiating mode in the prior art is smaller, in turn A kind of cooling device for the full indoor substation of overhead type for leading to the problem that heat dissipation effect is poor, and proposing.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of cooling device of the full indoor substation of overhead type offers the substation of working chamber, the work including inside Make chamber and offer several through-holes in the cavity wall of bottom, the working chamber is symmetrically opened in the opposite work cavity wall at top Equipped with first sliding groove, the first sliding block is slidably connected in the first sliding groove, two pieces of opposite one end of first sliding block are worn It crosses the notch of corresponding first sliding groove and extends outwardly, and be fixedly connected with one piece of reciprocating plate jointly, the reciprocating plate is close to top Position on offer the first screw hole, the first screw hole internal screw thread is connected with the first reciprocating screw rod, first reciprocating screw rod Both ends both pass through the aperture of the first screw hole and extend outwardly, the correspondence cavity wall of one end of first reciprocating screw rod to working chamber Interior extension, and be rotatablely connected by first bearing and the cavity wall of working chamber, the fixed cavity wall for being located at working chamber of the first bearing Interior, the other end of first reciprocating screw rod is connected with first motor by shaft coupling, and first motor is mounted on working chamber In corresponding cavity wall, the lower end of the reciprocating plate offers second sliding slot, and the second sliding block, institute are slidably connected in the second sliding slot The lower end for stating the second sliding block passes through the notch of second sliding slot and extends downwardly, and is connected with fan by disassembly mechanism, and described the The second screw hole is offered on two sliding blocks, and the second motor is installed in the side cell wall of the second sliding slot, second motor Output end is connected with the second reciprocating screw rod by shaft coupling, and the other end of second reciprocating screw rod passes through the second screw hole and to the Extending in the correspondence cell walls of two sliding slots, second reciprocating screw rod is threadedly coupled by the second screw hole with the second sliding block, and described the Two reciprocating screw rods are rotatablely connected by the cell wall of second bearing and second sliding slot, and fixed pair for being located at second sliding slot of second bearing It answers in cell wall.

Preferably, the disassembly mechanism includes being provided with link slot at the top of fan and two are symmetrically provided with the second sliding block Spring groove in phase back side wall symmetrically offers card hole corresponding with spring groove on the opposite cell wall of the link slot, described The slot bottom of spring groove is fixedly connected with spring, and the other end of the spring is fixedly connected with fixture block, and the fixture block is far from spring One end extends into card hole.

Preferably, first sliding block offers ball grooves, rolling in the ball grooves close to one end of first sliding groove slot bottom Dynamic to be connected with ball, the ball passes through the notch of ball grooves far from one end of ball grooves slot bottom and extends outwardly, and with first The slot bottom of sliding slot offsets.

Preferably, third sliding block, the opposite side of the spring groove are symmetrically fixedly connected on the opposite side wall of the fixture block The third sliding slot to match with third sliding block is symmetrically offered on wall, and third sliding block is slidably connected in third sliding slot.

Preferably, strainer is installed in the through-hole.

Preferably, the trapezoidal setting of the section of the fixture block.

Compared with prior art, the utility model provides a kind of cooling device of full indoor substation of overhead type, has Below the utility model has the advantages that

1, the cooling device of the full indoor substation of the overhead type, by the way that first motor, the first reciprocating screw rod, the first spiral shell is arranged Hole, reciprocating plate, first sliding groove, the first sliding block, the second motor, the second reciprocating screw rod, second sliding slot, the second sliding block, the second screw hole And fan, when radiating to substation, starting fan, first motor and the second motor, first motor are driven first toward multifilament Bar rotation, since the first reciprocating screw rod is threadedly coupled by the first screw hole with reciprocating plate, while the first sliding block is slidably connected at the In one sliding slot, limitation reciprocating plate cannot be rotated with the rotation of the first reciprocating screw rod, and reciprocating plate can only be along first sliding groove Direction carries out back and forth movement back and forth, and the second motor drives the second reciprocating screw rod to rotate when rotating, since the second sliding block is slidably connected In second sliding slot, while the second sliding block is threadedly coupled by the second screw hole with the second reciprocating screw rod, and then the second sliding block is the Back and forth movement is carried out in two sliding slots, and then drives fan to carry out back and forth movement, and then first motor cooperates the second motor to use, and makes Fan working chamber transverse direction and vertically move back and forth, fan covers the region of entire working chamber, and heat dissipation region is big, energy It radiates to whole transformer station, heat dissipation effect is obvious.

2, the cooling device of the full indoor substation of the overhead type passes through setting link slot, card hole, spring groove, spring and card Block applies opposite pressure to two pieces of fixture blocks when needing to remove fan, so make fixture block be detached from card hole, convenient for fan into Row replacement.

It is not directed to part in the device to be the same as those in the prior art or can be realized by using the prior art, the utility model The region that fan covers working chamber is big, and heat dissipation region is big, can radiate to whole transformer station, heat dissipation effect is obvious.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of full indoor substation of overhead type cooling device structural schematic diagram；

Fig. 2 is the sectional view along A-A in Fig. 1；

Fig. 3 is the enlarged drawing of part B in Fig. 1；

Fig. 4 is the enlarged drawing of C portion in Fig. 2.

In figure: 1 working chamber, 2 substations, 3 through-holes, 4 first sliding grooves, 5 first sliding blocks, 6 reciprocating plates, 7 first screw holes, 8 One reciprocating screw rod, 9 first motors, 10 second sliding slots, 11 second sliding blocks, 12 fans, 13 second screw holes, 14 second motors, 15 Two reciprocating screw rods, 16 link slots, 17 spring grooves, 18 card holes, 19 springs, 20 fixture blocks, 21 ball grooves, 22 balls, 23 third sliding blocks, 24 third sliding slots.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Referring to Fig.1-4, the cooling device of the full indoor substation of a kind of overhead type offers the change of working chamber 1 including inside Power station 2, working chamber 1 offer several through-holes 3, opposite work cavity wall of the working chamber 1 close to top in the cavity wall of bottom On symmetrically offer first sliding groove 4, the first sliding block 5, the opposite one end of two piece of first sliding block 5 are slidably connected in first sliding groove 4 It both passes through the notch of corresponding first sliding groove 4 and extends outwardly, and be fixedly connected with one piece of reciprocating plate 6 jointly, reciprocating plate 6 is close to top The first screw hole 7 is offered on the position in portion, 7 internal screw thread of the first screw hole is connected with the first reciprocating screw rod 8, the first reciprocating screw rod 8 Both ends both pass through the aperture of the first screw hole 7 and extend outwardly, and one end of the first reciprocating screw rod 8 is into the correspondence cavity wall of working chamber 1 Extending, and is rotatablely connected by first bearing and the cavity wall of working chamber 1, first bearing fixation is located in the cavity wall of working chamber 1, the The other end of one reciprocating screw rod 8 is connected with first motor 9 by shaft coupling, and first motor 9 is mounted on the corresponding cavity of working chamber 1 In wall, the lower end of reciprocating plate 6 offers second sliding slot 10, and the second sliding block 11, the second sliding block are slidably connected in second sliding slot 10 11 lower end passes through the notch of second sliding slot 10 and extends downwardly, and is connected with fan 12, the second sliding block 11 by disassembly mechanism On offer the second screw hole 13, the second motor 14, the output end of the second motor 14 are installed in the side cell wall of second sliding slot 10 It is connected with the second reciprocating screw rod 15 by shaft coupling, the other end of the second reciprocating screw rod 15 passes through the second screw hole 13 and slides to second Extend in the correspondence cell wall of slot 10, the second reciprocating screw rod 15 is threadedly coupled by the second screw hole 13 with the second sliding block 11, and second is past Multifilament bar 15 is rotatablely connected by the cell wall of second bearing and second sliding slot 10, and second bearing fixation is located at second sliding slot 10 In corresponding cell wall, when radiating to substation 2, starting fan 12, first motor 9 and the second motor 14, first motor 9 are driven The rotation of first reciprocating screw rod 8, since the first reciprocating screw rod 8 is threadedly coupled by the first screw hole 7 with reciprocating plate 6, while first is sliding Block 5 is slidably connected in first sliding groove 4, and limitation reciprocating plate 6 cannot rotate, reciprocating plate 6 with the rotation of the first reciprocating screw rod 8 Back and forth movement back and forth can only be carried out along the direction of first sliding groove 4, the second motor 14 drives the second reciprocating screw rod 15 to revolve when rotating Turn, since the second sliding block 13 is slidably connected in second sliding slot 10, while the second sliding block 13 is past by the second screw hole 13 and second Multifilament bar 15 is threadedly coupled, and then the second sliding block 13 carries out back and forth movement in second sliding slot 10, and then fan 12 is driven to carry out Back and forth movement, and then first motor 9 cooperates the second motor 14 to use, and makes fan 12 in the transverse direction of working chamber 2 and vertically carries out It moving back and forth, the region that fan 12 covers working chamber 1 is big, and heat dissipation region is big, it can radiate to whole transformer station 2, heat dissipation effect Fruit is obvious.

Disassembly mechanism include be provided with the top of fan 12 link slot 16 and two to be symmetrically provided with the second sliding block 11 opposite Spring groove 17 on side wall symmetrically offers card hole 18 corresponding with spring groove 17, spring on the opposite cell wall of link slot 16 The slot bottom of slot 17 is fixedly connected with spring 19, and the other end of spring 19 is fixedly connected with fixture block 20, and fixture block 20 is far from spring 19 One end extends into card hole 18, when needing to remove fan 12, applies opposite pressure to two pieces of fixture blocks 20, and then make fixture block 20 It is detached from card hole 18, convenient for replacing to fan 12.

First sliding block 5 offers ball grooves 21 close to one end of 4 slot bottom of first sliding groove, rolls in ball grooves 21 and is connected with rolling Pearl 22, ball 22 far from 21 slot bottom of ball grooves one end pass through ball grooves 21 notch and extend outwardly, and with first sliding groove 4 Slot bottom offsets, and slides the first sliding block 5 more quick.

It is symmetrically fixedly connected with third sliding block 23 on the opposite side wall of fixture block 20, is symmetrically opened in the opposing sidewalls of spring groove 17 Equipped with the third sliding slot 24 to match with third sliding block 23, and third sliding block 23 is slidably connected in third sliding slot 24, prevents card The case where disengaging spring groove 17 of block 20, occurs.

Strainer is installed in through-hole 3, prevents dust from entering in substation 1 by through-hole 3.

The trapezoidal setting of the section of fixture block 20, is installed convenient for fan 12.

In the utility model, when radiating to substation 2, starting fan 12, first motor 9 and the second motor 14, the One motor 9 drives the rotation of the first reciprocating screw rod 8, since the first reciprocating screw rod 8 is threadedly coupled by the first screw hole 7 with reciprocating plate 6, The first sliding block 5 is slidably connected in first sliding groove 4 simultaneously, and limitation reciprocating plate 6 cannot be revolved with the rotation of the first reciprocating screw rod 8 Turn, reciprocating plate 6 can only carry out back and forth movement back and forth along the direction of first sliding groove 4, and drive second is past when the second motor 14 rotates Multifilament bar 15 rotates, and since the second sliding block 13 is slidably connected in second sliding slot 10, while the second sliding block 13 passes through the second screw hole 13 are threadedly coupled with the second reciprocating screw rod 15, and then the second sliding block 13 carries out back and forth movement in second sliding slot 10, and then drives Fan 12 carry out back and forth movement, and then first motor 9 cooperate the second motor 14 use, make fan 12 working chamber 2 transverse direction and It vertically moves back and forth, the region that fan 12 covers working chamber 1 is big, and heat dissipation region is big, can carry out to whole transformer station 2 scattered Heat, heat dissipation effect are obvious；When needing to remove fan 12, opposite pressure is applied to two pieces of fixture blocks 20, and then keeps fixture block 20 de- From card hole 18, convenient for being replaced to fan 12.

More than, the only preferable specific embodiment of the utility model, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, according to the utility model Technical solution and its utility model design be subject to equivalent substitution or change, should all cover the protection scope of the utility model it It is interior.

Claims (6)

1. a kind of cooling device of the full indoor substation of overhead type, the substation (2) of working chamber (1) is offered including inside, It is characterized in that, the working chamber (1) offers several through-holes (3) in the cavity wall of bottom, and the working chamber (1) is close to top It is symmetrically offered first sliding groove (4) in the opposite work cavity wall in portion, slidably connects the first sliding block in the first sliding groove (4) (5), two pieces of opposite one end of first sliding block (5) both pass through the notch of corresponding first sliding groove (4) and extend outwardly, and common It is fixedly connected with one piece of reciprocating plate (6), the reciprocating plate (6) offers the first screw hole (7) on the position at top, and described the One screw hole (7) internal screw thread is connected with the first reciprocating screw rod (8), and the both ends of first reciprocating screw rod (8) both pass through the first screw hole (7) aperture simultaneously extends outwardly, and one end of first reciprocating screw rod (8) extends into the correspondence cavity wall of working chamber (1), and logical The cavity wall for crossing first bearing and working chamber (1) is rotatablely connected, and the first bearing fixation is located in the cavity wall of working chamber (1), institute The other end for stating the first reciprocating screw rod (8) is connected with first motor (9) by shaft coupling, and first motor (9) is mounted on work In the correspondence cavity wall of chamber (1), the lower end of the reciprocating plate (6) is offered second sliding slot (10), sliding in the second sliding slot (10) Dynamic to be connected with the second sliding block (11), the lower end of second sliding block (11) passes through the notch of second sliding slot (10) and extends downwardly, And be connected with fan (12) by disassembly mechanism, it is offered the second screw hole (13) on second sliding block (11), described second is sliding It is equipped in the side cell wall of slot (10) the second motor (14), the output end of second motor (14) is connected with by shaft coupling Second reciprocating screw rod (15), the other end of second reciprocating screw rod (15) pass through the second screw hole (13) and to second sliding slot (10) Correspondence cell wall in extend, second reciprocating screw rod (15) is threadedly coupled by the second screw hole (13) with the second sliding block (11), Second reciprocating screw rod (15) is rotatablely connected by the cell wall of second bearing and second sliding slot (10), and second bearing fixation is set In the correspondence cell wall of second sliding slot (10).

2. a kind of cooling device of the full indoor substation of overhead type according to claim 1, which is characterized in that the disassembly Mechanism includes being provided with the link slot (16) at the top of fan (12) and two are symmetrically provided in the second sliding block (11) phase back side wall Spring groove (17), symmetrically offer card hole corresponding with spring groove (17) on the opposite cell wall of the link slot (16) (18), the slot bottom of the spring groove (17) is fixedly connected with spring (19), and the other end of the spring (19) is fixedly connected with card Block (20), the one end of the fixture block (20) far from spring (19) extend into card hole (18).

3. a kind of cooling device of the full indoor substation of overhead type according to claim 1, which is characterized in that described first Sliding block (5) offers ball grooves (21) close to one end of first sliding groove (4) slot bottom, rolls in the ball grooves (21) and is connected with rolling Pearl (22), the ball (22) pass through the notch of ball grooves (21) far from one end of ball grooves (21) slot bottom and extend outwardly, and It offsets with the slot bottom of first sliding groove (4).

4. a kind of cooling device of the full indoor substation of overhead type according to claim 2, which is characterized in that the fixture block (20) it is symmetrically fixedly connected on opposite side wall third sliding block (23), is symmetrically opened up in the opposing sidewalls of the spring groove (17) There is the third sliding slot (24) to match with third sliding block (23), and third sliding block (23) is slidably connected in third sliding slot (24).

5. a kind of cooling device of the full indoor substation of overhead type according to claim 1, which is characterized in that the through-hole (3) strainer is installed in.

6. a kind of cooling device of the full indoor substation of overhead type according to claim 2, which is characterized in that the fixture block (20) the trapezoidal setting of section.