CN108471060A - A kind of power engineering equipment and application method - Google Patents

Abstract

The invention discloses a kind of power engineering equipment and application methods, including babinet, guard assembly, radiating subassembly, orifice union, chamber door, electric cabinet and control button, it is bolted electric cabinet at the side center of the babinet, the side of the electric cabinet is equipped with control button, the inside of the babinet is equipped with guard assembly, the bottom interior wall of the babinet is equipped with radiating subassembly, and orifice union is equipped on the radiating subassembly；The guard assembly includes left electric pushrod, moves to left movable plate, idler wheel, upper hopper chute, left cross bar, right cross bar, moves to right movable plate, right electric pushrod, gliding groove, vibrating sensor, PLC controller, reset switch, slot and inserted link; the equipment is conducive to the internal unit for protecting babinet；Radiating efficiency is high；Due to the setting of orifice union, cooling-down effect is greatly improved.

Description

A kind of power engineering equipment and application method

Technical field

The present invention relates to power engineering equipment technical field, specially a kind of power engineering equipment and application method.

Background technology

Low-tension switch cabinet is a kind of power engineering equipment, and switchgear outside line is introduced into master switch in cabinet, subsequently into point Control switch, each branch is set according to its needs, and main function is to be generated electricity in electric system, transmitted electricity, the conversion of distribution and electric energy During, opened and closed, controlled and protected electrical equipment.

But there are defects below for general low-tension switch cabinet：It is unfavorable for protecting the internal unit of babinet；Equipment dissipates The thermal efficiency is low；It is not provided with orifice union, greatly reduces cooling-down effect；Therefore a kind of power engineering equipment and user are designed Method is necessary.

Invention content

The purpose of the present invention is to provide a kind of power engineering equipment and application methods, to solve to carry in above-mentioned background technology The problem of going out.

To achieve the above object, the present invention provides the following technical solutions：

A kind of power engineering equipment, including babinet, guard assembly, radiating subassembly, orifice union, chamber door, electric cabinet and control Button processed, has been bolted electric cabinet at the side center of the babinet, the side of the electric cabinet be equipped with control by The inside of button, the babinet is equipped with guard assembly, and the bottom interior wall of the babinet is equipped with radiating subassembly, the radiating subassembly On orifice union is installed；

The guard assembly includes left electric pushrod, moves to left movable plate, idler wheel, upper hopper chute, left cross bar, right cross bar, moves right Plate, right electric pushrod, gliding groove, vibrating sensor, PLC controller, reset switch, slot and inserted link, the top of the babinet Inner wall and bottom interior wall offer upper hopper chute and gliding groove respectively, and the side inner wall of the babinet is equipped with left electronic by bolt Push rod, and one end of left electric pushrod is welded with and moves to left movable plate, the other side inner wall of the babinet is equipped with by bolt Right electric pushrod, and one end of right electric pushrod is welded with and moves to right movable plate, the correspondence for moving to left movable plate and moving to right movable plate Both ends are connect with upper hopper chute and gliding groove by idler wheel respectively, and the side for moving to left movable plate is bonded with left cross bar, the left side One end of cross bar offers slot, and the side of slot is equipped with reset switch, and the side for moving to right movable plate is bonded with right cross Bar, and one end of right cross bar is bonded with inserted link, the side inner wall of the babinet are equipped with vibrating sensor, the electric cabinet it is interior Portion is equipped with PLC controller, and the vibrating sensor is electrically connected the input terminal of PLC controller, the output of the PLC controller End is electrically connected left electric pushrod and right electric pushrod, and the reset switch is electrically connected left electric pushrod and right electric pushrod；

The radiating subassembly includes return duct, collecting plate, water tank, connecting tube, water pump, heat emission hole and semiconductor chilling plate, The side inner wall of the babinet is equidistant to be equipped with several collecting plates, and the bottom interior wall side of the babinet is installed by bolt There are water tank, the side of the water tank to be connect with water pump side by connecting tube, and water pump is mounted on the bottom of babinet by bolt The other side of inner wall, the water pump is connect across collecting plate with the babinet other side by return duct, the inner wall patch of the connecting tube Conjunction has a semiconductor chilling plate, and the correspondence both sides of the babinet offer heat emission hole, the control button be electrically connected water pump and Semiconductor chilling plate；

The orifice union include fixed bin, the first overflow plate, upper shifting chute, resetting spring, the second overflow plate, first overflow Discharge orifice, the second spout hole and lower shifting chute, are socketed with fixed bin on the outside of the return duct, in the correspondence both sides of the fixed bin Wall offers shifting chute and lower shifting chute respectively, and one end of the upper shifting chute and lower shifting chute is by being welded with first Overflow plate, and the side of the first overflow plate offers the first spout hole, the upper shifting chute is connected with the other end of lower shifting chute There is the second overflow plate, and the side of the second overflow plate offers the second spout hole, second spout hole and the first spout hole phase Mistake arrangement, the side opposite ends of first overflow plate are connect by resetting spring with the second overflow plate.

A kind of power engineering equipment application method, includes the following steps：Step 1, equipment protection；Step 2, equipment dissipate Heat；Step 3, equipment throttling；

Wherein in above-mentioned step one, vibrating sensor monitors the vibration values of babinet, when vibration values reach PLC controller Preset value when, PLC controller controls left electric pushrod and right electric pushrod and moves toward one another, and drives left cross bar and right cross bar opposite Movement, inserted link are inserted into slot, and inserted link squeezes reset switch, left electric pushrod and right electric pushrod stop motion；

Wherein in above-mentioned step two, collecting plate absorbs box house heat, manipulates control button, water pump and semiconductor Cooling piece works, and water pump is extracted out the coolant liquid in water tank by connecting tube, is freezed by semiconductor chilling plate, then by return duct It flow back into water tank；

Wherein in above-mentioned step three, coolant liquid is flowed into fixed bin, and coolant liquid passes through on the first overflow plate One spout hole enters between the first overflow plate and the second overflow plate, and the second overflow plate of coolant liquid pair squeezes, resetting spring stress Flexible, coolant liquid is flowed out by the second spout hole on the second overflow plate.

According to above-mentioned technical proposal, the side of the babinet is connected with chamber door by articulate.

According to above-mentioned technical proposal, the PLC controller is a kind of FX2N-8ER controllers.

According to above-mentioned technical proposal, the distance of the collecting plate between any two is 5cm.

According to above-mentioned technical proposal, the resetting spring is connect by seccotine with the first overflow plate and the second overflow plate.

Compared with prior art, the beneficial effects of the invention are as follows：

1. vibrating sensor monitors the vibration values of babinet in real time, when vibration values reach the preset value of PLC controller, PLC Controller controls left electric pushrod and right electric pushrod moves toward one another, and to drive left cross bar and right cross bar to move toward one another, makes to insert Bar is inserted into slot, and when inserted link squeezes reset switch, left electric pushrod and right electric pushrod stop motion are formed One protection cavity, is conducive to the internal unit for protecting babinet；

2. collecting plate absorbs box house heat, by manipulating control button, water pump and semiconductor chilling plate is set to work, water Pump by connecting tube by water tank coolant liquid extract out, freeze by semiconductor chilling plate, then flow into return duct to collecting plate into Row cooling, after flow back into water tank, the setting of heat emission hole is conducive to radiate, which is conducive to high efficiency and heat radiation；

3. coolant liquid is flowed into fixed bin, coolant liquid enters first by the first spout hole on the first overflow plate and overflows Between flowing plate and the second overflow plate, the second overflow plate of coolant liquid pair squeezes, and resetting spring stress is flexible, and coolant liquid passes through second again The second spout hole outflow on overflow plate, is conducive to reduce the flow velocity of coolant liquid, coolant liquid is made to be kept in return duct Time it is more long, improve cooling-down effect.

Description of the drawings

Fig. 1 is the overall structure figure of the present invention；

Fig. 2 is the internal structure of the box of the present invention；

Fig. 3 is the electric cabinet internal structure chart of the present invention；

Fig. 4 is the left cross bar internal structure chart of the present invention；

Fig. 5 is the right bar structure figure of the present invention；

Fig. 6 is the internal structure of the box of the present invention；

Fig. 7 is the connecting tube internal structure chart of the present invention；

Fig. 8 is the orifice union structure chart of the present invention；

Figure label：1, babinet；2, guard assembly；21, left electric pushrod；22, movable plate is moved to left；23, idler wheel；24, upper cunning Slot；25, left cross bar；26, right cross bar；27, movable plate is moved to right；28, right electric pushrod；29, gliding groove；210, vibrating sensor； 211, PLC controller；212, reset switch；213, slot；214, inserted link；3, radiating subassembly；31, return duct；32, collecting plate； 33, water tank；34, connecting tube；35, water pump；36, heat emission hole；37, semiconductor chilling plate；4, orifice union；41, fixed bin；42、 First overflow plate；43, upper shifting chute；44, resetting spring；45, the second overflow plate；46, the first spout hole；47, the second spout hole； 48, lower shifting chute；5, chamber door；6, electric cabinet；7, control button.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Please refer to Fig.1-8, the present invention provides a kind of power engineering equipment, including babinet 1, guard assembly 2, radiating subassembly 3, Orifice union 4, chamber door 5, electric cabinet 6 and control button 7 have been bolted electric cabinet 6 at the side center of babinet 1, electricity The side of control case 6 is equipped with control button 7, and the inside of babinet 1 is equipped with guard assembly 2, and the bottom interior wall of babinet 1 is equipped with scattered Hot component 3 is equipped with orifice union 4 on radiating subassembly 3；

Guard assembly 2 includes left electric pushrod 21, moves to left movable plate 22, idler wheel 23, upper hopper chute 24, left cross bar 25, right cross bar 26, it moves to right movable plate 27, right electric pushrod 28, gliding groove 29, vibrating sensor 210, PLC controller 211, reset switch 212, insert Slot 213 and inserted link 214, the top inner wall and bottom interior wall of babinet 1 offer upper hopper chute 24 and gliding groove 29 respectively, babinet 1 Side inner wall is equipped with left electric pushrod 21 by bolt, and one end of left electric pushrod 21 is welded with and moves to left movable plate 22, The other side inner wall of babinet 1 is equipped with right electric pushrod 28 by bolt, and one end of right electric pushrod 28 is welded with the right side Movable plate 27, move to left movable plate 22 and move to right the opposite ends of movable plate 27 by idler wheel 23 respectively with upper hopper chute 24 and gliding groove 29 Connection, the side for moving to left movable plate 22 are bonded with left cross bar 25, and one end of left cross bar 25 offers slot 213, and the one of slot 213 Side is equipped with reset switch 212, and the side for moving to right movable plate 27 is bonded with right cross bar 26, and one end of right cross bar 26 is bonded with inserted link 214, the side inner wall of babinet 1 is equipped with vibrating sensor 210, and the inside of electric cabinet 6 is equipped with PLC controller 211, and vibration passes Sensor 210 is electrically connected the input terminal of PLC controller 211, and the output end of PLC controller 211 is electrically connected left electric pushrod 21 With right electric pushrod 28, reset switch 212 is electrically connected left electric pushrod 21 and right electric pushrod 28, is conducive to protect babinet 1 Internal unit；

Radiating subassembly 3 includes return duct 31, collecting plate 32, water tank 33, connecting tube 34, water pump 35, heat emission hole 36 and partly leads Body cooling piece 37, the side inner wall of babinet 1 is equidistant to be equipped with several collecting plates 32, and the bottom interior wall side of babinet 1 passes through Bolt is equipped with water tank 33, and the side of water tank 33 is connect by connecting tube 34 with 35 side of water pump, and water pump 35 is pacified by bolt Mounted in the bottom interior wall of babinet 1, the other side of water pump 35 is connect across collecting plate 32 with 1 other side of babinet by return duct 31, The inner wall of connecting tube 34 is fitted with semiconductor chilling plate 37, and the correspondence both sides of babinet 1 offer heat emission hole 36, control button 7 It is electrically connected water pump 35 and semiconductor chilling plate 37, is conducive to radiate；

Orifice union 4 includes fixed bin 41, the first overflow plate 42, upper shifting chute 43, resetting spring 44, the second overflow plate 45, the first spout hole 46, the second spout hole 47 and lower shifting chute 48, the outside of return duct 31 are socketed with fixed bin 41, fixed bin 41 correspondence both sides inner wall offers shifting chute 43 and lower shifting chute 48, one end of upper shifting chute 43 and lower shifting chute 48 respectively By being welded with the first overflow plate 42, and the side of the first overflow plate 42 offers the first spout hole 46, upper shifting chute 43 It is connected with the second overflow plate 45 with the other end of lower shifting chute 48, and the side of the second overflow plate 45 offers the second spout hole 47, the second spout hole 47 and the first spout hole 46 are staggered arrangement, and the side opposite ends of the first overflow plate 42, which pass through, resets bullet Spring 44 is connect with the second overflow plate 45, advantageously reduces cooling liquid speed, improves heat dissipation effect.

A kind of power engineering equipment application method, includes the following steps：Step 1, equipment protection；Step 2, equipment dissipate Heat；Step 3, equipment throttling；

Wherein in above-mentioned step one, vibrating sensor 210 monitors the vibration values of babinet 1, when vibration values reach PLC controls When the preset value of device 211 processed, PLC controller 211 controls left electric pushrod 21 and right electric pushrod 28 moves toward one another, and drives left cross Bar 25 and right cross bar 26 move toward one another, and inserted link 214 is inserted into slot 213, and inserted link 214 squeezes reset switch 212, left 28 stop motion of electric pushrod 21 and right electric pushrod；

Wherein in above-mentioned step two, collecting plate 32 absorbs 1 internal heat of babinet, manipulates control button 7,35 He of water pump Semiconductor chilling plate 37 works, and water pump 35 is extracted out the coolant liquid in water tank 33 by connecting tube 34, by semiconductor chilling plate 37 refrigeration, then flow back into water tank 33 by return duct 31；

Wherein in above-mentioned step three, coolant liquid is flowed into fixed bin 41, and coolant liquid passes through on the first overflow plate 42 The first spout hole 46 enter between the first overflow plate 42 and the second overflow plate 45, the second overflow plate of coolant liquid pair 45 squeeze, 44 stress of resetting spring is flexible, and coolant liquid is flowed out by the second spout hole 47 on the second overflow plate 45.

According to above-mentioned technical proposal, the side of babinet 1 is connected with chamber door 5 by articulate, is conducive to close and open.

According to above-mentioned technical proposal, PLC controller 211 is a kind of FX2N-8ER controllers, is conducive to control.

According to above-mentioned technical proposal, the distance of collecting plate 32 between any two is 5cm, is conducive to radiate.

According to above-mentioned technical proposal, resetting spring 44 is connected by seccotine and the first overflow plate 42 and the second overflow plate 45 It connects, is conducive to connect.

Based on above-mentioned, it is an advantage of the current invention that the vibration values of the monitoring babinet 1 in real time of vibrating sensor of the present invention 210, when When vibration values reach the preset value of PLC controller 211, PLC controller 211 controls 28 phase of left electric pushrod 21 and right electric pushrod Inserted link 214 is set to be inserted into slot 213, when inserted link 214 to drive left cross bar 25 and right cross bar 26 to move toward one another to movement When squeezing reset switch 212,28 stop motion of left electric pushrod 21 and right electric pushrod forms a protection cavity, Be conducive to protect the internal unit of babinet 1；Collecting plate 32 absorbs 1 internal heat of babinet, by manipulating control button 7, makes water pump 35 and semiconductor chilling plate 37 work, water pump 35 by connecting tube 34 by water tank 33 coolant liquid extract out, by semiconductor system Cold 37 refrigeration, then flows into return duct 31 and cools down to collecting plate 32, after flow back into water tank 33, the setting of heat emission hole 36, Be conducive to radiate, which is conducive to high efficiency and heat radiation；Coolant liquid is flowed into fixed bin 41, and coolant liquid passes through the first overflow The first spout hole 46 on plate 42 enters between the first overflow plate 42 and the second overflow plate 45, the second overflow plate of coolant liquid pair 45 It squeezes, 44 stress of resetting spring is flexible, and coolant liquid is flowed out by the second spout hole 47 on the second overflow plate 45 again, is conducive to pair The flow velocity of coolant liquid is reduced, and keeps the time that coolant liquid is kept in return duct 31 more long, improves cooling-down effect.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding without departing from the principles and spirit of the present invention can carry out these embodiments a variety of variations, modification, replace And modification, the scope of the present invention is defined by the appended.

Claims (6)

1. a kind of power engineering equipment, including babinet (1), guard assembly (2), radiating subassembly (3), orifice union (4), chamber door (5), electric cabinet (6) and control button (7), it is characterised in that：It is bolted electricity at the side center of the babinet (1) Case (6) is controlled, the side of the electric cabinet (6) is equipped with control button (7), and the inside of the babinet (1) is equipped with guard assembly (2), the bottom interior wall of the babinet (1) is equipped with radiating subassembly (3), and orifice union is equipped on the radiating subassembly (3) (4)；

The guard assembly (2) includes left electric pushrod (21), moves to left movable plate (22), idler wheel (23), upper hopper chute (24), left cross bar (25), right cross bar (26), move to right movable plate (27), right electric pushrod (28), gliding groove (29), vibrating sensor (210), PLC control Device (211), reset switch (212), slot (213) and inserted link (214) processed, the top inner wall and bottom interior wall of the babinet (1) Offer upper hopper chute (24) and gliding groove (29) respectively, the side inner wall of the babinet (1) is equipped with left electronic push away by bolt Bar (21), and one end of left electric pushrod (21) is welded with and moves to left movable plate (22), the other side inner wall of the babinet (1) is logical It crosses bolt and right electric pushrod (28) is installed, and one end of right electric pushrod (28) is welded with and moves to right movable plate (27), it is described Move to left movable plate (22) and move to right the opposite ends of movable plate (27) by idler wheel (23) respectively with upper hopper chute (24) and gliding groove (29) it connects, the side for moving to left movable plate (22) is bonded with left cross bar (25), and one end of the left cross bar (25) offers slotting Slot (213), and the side of slot (213) is equipped with reset switch (212), the side for moving to right movable plate (27) is bonded with right cross Bar (26), and one end of right cross bar (26) is bonded with inserted link (214), the side inner wall of the babinet (1) is equipped with vibrating sensing The inside of device (210), the electric cabinet (6) is equipped with PLC controller (211), and the vibrating sensor (210) is electrically connected The output end of the input terminal of PLC controller (211), the PLC controller (211) is electrically connected left electric pushrod (21) and right electricity Dynamic push rod (28), the reset switch (212) are electrically connected left electric pushrod (21) and right electric pushrod (28)；

The radiating subassembly (3) includes return duct (31), collecting plate (32), water tank (33), connecting tube (34), water pump (35), dissipates Hot hole (36) and semiconductor chilling plate (37), the side inner wall of the babinet (1) is equidistant to be equipped with several collecting plates (32), The bottom interior wall side of the babinet (1) is equipped with water tank (33) by bolt, and the side of the water tank (33) passes through connecting tube (34) it is connect with water pump (35) side, and water pump (35) is mounted on the bottom interior wall of babinet (1), the water pump (35) by bolt The other side connect with babinet (1) other side across collecting plate (32) by return duct (31), the inner wall of the connecting tube (34) It is fitted with semiconductor chilling plate (37), the correspondence both sides of the babinet (1) offer heat emission hole (36), the control button (7) water pump (35) and semiconductor chilling plate (37) are electrically connected；

The orifice union (4) includes fixed bin (41), the first overflow plate (42), upper shifting chute (43), resetting spring (44), Two overflow plates (45), the first spout hole (46), the second spout hole (47) and lower shifting chute (48), the outside of the return duct (31) It is socketed with fixed bin (41), the correspondence both sides inner wall of the fixed bin (41) offers shifting chute (43) and lower shifting chute respectively (48), one end of the upper shifting chute (43) and lower shifting chute (48) is by being welded with the first overflow plate (42), and first The side of overflow plate (42) offers the first spout hole (46), the other end company of the upper shifting chute (43) and lower shifting chute (48) It is connected to the second overflow plate (45), and the side of the second overflow plate (45) offers the second spout hole (47), second spout hole (47) be staggered arrangement with the first spout hole (46), and the side opposite ends of first overflow plate (42) pass through resetting spring (44) it is connect with the second overflow plate (45).

2. a kind of power engineering equipment application method, includes the following steps：Step 1, equipment protection；Step 2, equipment cooling； Step 3, equipment throttling；It is characterized in that：

Wherein in above-mentioned step one, vibrating sensor (210) monitors the vibration values of babinet (1), when vibration values reach PLC controls When the preset value of device (211) processed, PLC controller (211) controls left electric pushrod (21) and right electric pushrod (28) moves toward one another, Left cross bar (25) and right cross bar (26) is driven to move toward one another, inserted link (214) is inserted into slot (213), and inserted link (214) is to resetting Switch (212) is squeezed, left electric pushrod (21) and right electric pushrod (28) stop motion；

Wherein in above-mentioned step two, collecting plate (32) absorbs babinet (1) internal heat, manipulation control button (7), water pump (35) coolant liquid in water tank (33) is extracted out by connecting tube (34) with semiconductor chilling plate (37) work, water pump (35), warp Semiconductor chilling plate (37) refrigeration is crossed, then is flow back into water tank (33) by return duct (31)；

Wherein in above-mentioned step three, coolant liquid is flowed into fixed bin (41), and coolant liquid passes through on the first overflow plate (42) The first spout hole (46) enter between the first overflow plate (42) and the second overflow plate (45), the second overflow plate of coolant liquid pair (45) it squeezes, resetting spring (44) stress is flexible, and coolant liquid is flowed out by the second spout hole (47) on the second overflow plate (45).

3. a kind of power engineering equipment according to claim 1, it is characterised in that：It is lived by hinge the side of the babinet (1) It is dynamic to be connected with chamber door (5).

4. a kind of power engineering equipment according to claim 1, it is characterised in that：The PLC controller (211) is one kind FX2N-8ER controllers.

5. a kind of power engineering equipment according to claim 1, it is characterised in that：The distance of the collecting plate (32) between any two For 5cm.

6. a kind of power engineering equipment according to claim 1, it is characterised in that：The resetting spring (44) by seccotine with First overflow plate (42) and the second overflow plate (45) connection.