CN220873363U - Shockproof structure of direct current reactor - Google Patents

Abstract

The utility model discloses a shockproof structure of a direct current reactor, which relates to the technical field of reactors and comprises an installation box and a reactor body arranged in the installation box, wherein a shockproof assembly is arranged below the reactor body and comprises an installation frame.

Description

Shockproof structure of direct current reactor

Technical Field

The utility model relates to the technical field of reactors, in particular to a shockproof structure of a direct current reactor.

Background

The reactor can also be called an inductor, when one conductor is electrified, a magnetic field is generated in a certain space occupied by the conductor, so that all current-carrying electric conductors have common sense, however, the inductance of an electrified long straight conductor is smaller, and the generated magnetic field is not strong.

The prior China patent (bulletin number: CN 211208149U) discloses an insulating anti-seismic reactor, which comprises a shell, wherein a reactor body is connected inside the shell, a lower supporting plate block is arranged at the bottom end of the reactor body, an upper supporting plate block is connected at the top end of the reactor body, and an insulating pad is fixedly connected on the inner wall of the shell. Under the effect of shockproof mechanism, when the upper loose axle of the inside groove internal connection of lower carriage plate bottom offered of reactor body bottom connection is pushed down owing to gravity, then make the bracing piece move between lower loose axle and the sliding ring because the length restriction of bracing piece, then make to press the sliding ring through slide to the direction of spring on the slide bar, then make to compress its spring, nevertheless through the reaction force of spring, make can carry out effectual shockproof effect to the reactor body of its lower carriage plate connection, thereby prevent that the reactor body from taking place under the circumstances that takes place the shake and cause the phenomenon that the component becomes flexible.

Above-mentioned reactor is in the use, when taking place to shake, the impact force that shakes the production can drive the sliding ring extrusion spring and cushion, and because the spring is the buffering to instantaneous rigidity vibrations when buffering to can not alleviate the range of vibrations, therefore when meetting the impact, the impact force can drive the continuous vibrations of spring, not only can't provide shockproof effect but also can increase the vibration range.

For this reason, we propose a shockproof structure of a dc reactor to solve the above-mentioned problems.

Disclosure of utility model

The utility model provides a shockproof structure of a direct current reactor, which solves the technical problem of poor shockproof effect in the prior art.

In order to solve the technical problems, the utility model provides a shockproof structure of a direct current reactor, which comprises a mounting box and a reactor body arranged in the mounting box, wherein a shockproof assembly is arranged below the reactor body and comprises a mounting frame, the mounting frame is connected in the mounting box, a mounting plate is arranged in the mounting frame in a sliding manner, the top of the mounting plate is connected with the bottom of the reactor body, a transmission rod is arranged below the mounting plate in a rotating manner, the other end of the transmission rod is provided with a transmission block in a rotating manner, one side of the transmission block is connected with a damping rod, a buffer spring is sleeved on the damping rod, a sealing cylinder is connected in the mounting frame, a piston rod is arranged in the sealing cylinder in a sliding manner, the top of the piston rod is connected with the bottom of the mounting plate, two sides of the sealing cylinder are connected with a nipple, and the other end of the nipple is connected with a rubber air bag.

Preferably, a compression spring is connected to the sealing cylinder, and the top of the compression spring is connected with the bottom of the piston rod.

Preferably, the transmission block is embedded with balls, the balls are slidably connected to the inner wall of the mounting frame, and the mounting frame is internally provided with mounting grooves matched with the balls.

Preferably, guide rods are connected to two sides of the mounting plate, the guide rods are slidably connected to the inner wall of the mounting frame, and sliding grooves matched with the guide rods are formed in the mounting frame.

Preferably, both sides of the installation box are respectively provided with an incoming line connection port and an outgoing line connection port.

Preferably, the reactor comprises a reactor body, and is characterized by further comprising a heat dissipation component for dissipating heat of the reactor body, wherein the heat dissipation component comprises an exhaust fan, the exhaust fan is connected in an installation box, one side of the installation box is connected with a fixed frame, one side of the fixed frame is connected with an air inlet pipe, one side of the exhaust fan is connected with a shunt pipe, and a water absorption sponge plate is connected in the fixed frame.

Preferably, the fixed frame is connected with a filter screen.

Preferably, the bottom of the mounting box is connected with a mounting plate.

Compared with the related art, the shockproof structure of the direct current reactor has the following beneficial effects:

According to the utility model, when the reactor body is impacted in the vertical direction to vibrate, the reactor body drives the mounting plate to slide in the mounting frame, so that the transmission rod connected below the mounting plate drives the two transmission blocks to move oppositely and simultaneously drives the damping rod and the buffer spring to buffer, the mounting plate can also drive the piston rod to slide in the sealing cylinder while being vertically downward, so that the piston rod extrudes air in the sealing cylinder into the rubber air bag, at the moment, the pressure in the rubber air bag is increased, the rubber air bag is expanded to absorb impact energy, and the shape of the rubber air bag is restored after vibration is finished.

According to the utility model, the exhaust fan is started to blow external cold air into the mounting box to radiate heat of the reactor body in the mounting box, the shunt tube is convenient to blow sucked cold air onto the reactor body uniformly, and the water absorbing sponge plate is arranged to filter the cold air conveniently, so that the cold air is prevented from contacting with the reactor body.

Drawings

Fig. 1 is a schematic diagram of the overall structure of a shockproof structure of a dc reactor;

Fig. 2 is a schematic diagram of an internal structure of a shockproof structure of a dc reactor;

FIG. 3 is an enlarged view of the structure at A in FIG. 2;

Fig. 4 is an enlarged view of the structure at B in fig. 2.

Reference numerals in the drawings: 1. a mounting box; 2. a reactor body; 3. a mounting frame; 4. a mounting plate; 5. a transmission rod; 6. a transmission block; 7. a damping rod; 8. a buffer spring; 9. a sealing cylinder; 10. a piston rod; 11. a rubber air bag; 12. a compression spring; 13. a ball; 14. a guide rod; 15. an exhaust fan; 16. a fixed frame; 17. a shunt; 18. a water-absorbing sponge plate; 19. and (3) a filter screen.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present utility model and are not to be construed as limiting the present utility model.

The first embodiment is given by fig. 1-4, a shockproof structure of a direct current reactor, including a mounting box 1 and a reactor body 2 arranged in the mounting box 1, a shockproof component is arranged below the reactor body 2, the shockproof component comprises a mounting frame 3, the mounting frame 3 is connected in the mounting box 1, a mounting plate 4 is arranged in the mounting frame 3 in a sliding manner, the top of the mounting plate 4 is connected with the bottom of the reactor body 2, a transmission rod 5 is arranged in the lower rotation of the mounting plate 4, the other end of the transmission rod 5 is provided with a transmission block 6 in a rotating manner, one side of the transmission block 6 is connected with a damping rod 7, a buffer spring 8 is sleeved on the damping rod 7, a sealing cylinder 9 is connected in the mounting frame 3, a piston rod 10 is arranged in the sealing cylinder 9 in a sliding manner, the top of the piston rod 10 is connected with the bottom of the mounting plate 4, two sides of the sealing cylinder 9 are connected with a nipple, and the other end of the nipple is connected with a rubber airbag 11.

When the reactor body 2 is impacted in the vertical direction to vibrate, the reactor body 2 drives the mounting plate 4 to slide in the mounting frame 3, the transmission rod 5 connected below the mounting plate 4 drives the two transmission blocks 6 to move oppositely and simultaneously drives the pull damping rod 7 and the buffer spring 8 to buffer, the mounting plate 4 can also drive the piston rod 10 to slide in the sealing cylinder 9 while being vertically downward, so that the piston rod 10 extrudes air in the sealing cylinder 9 into the rubber air bag 11, the pressure in the rubber air bag 11 is increased at the moment, and the rubber air bag is inflated to absorb impact energy, and the shape of the rubber air bag 11 is restored after vibration is finished.

In addition, the compression spring 12 is connected in the sealing cylinder 9, the top of the compression spring 12 is connected with the bottom of the piston rod 10, the piston rod 10 is conveniently driven to return to the original position by the aid of the compression spring 12, and the buffering effect is further improved.

The transmission block 6 is embedded to be equipped with ball 13, and ball 13 sliding connection is on the inner wall of installing frame 3, has seted up the mounting groove with ball 13 looks adaptation in the installing frame 3, and this setting is convenient to provide certain spacing and direction effect to the slip of transmission block 6, has promoted the stability of transmission block 6 in the slip in-process.

Both sides of the mounting plate 4 are connected with guide rods 14, the guide rods 14 are slidably connected on the inner wall of the mounting frame 3, sliding grooves matched with the guide rods 14 are formed in the mounting frame 3, and the arrangement provides a guiding effect for the sliding of the mounting plate 4.

The inlet wire connector and the outlet wire connector are respectively arranged on two sides of the installation box 1, and the arrangement is convenient for connecting the reactor body 2 with an external circuit.

Referring to fig. 1-4, the second embodiment further includes a heat dissipation component for dissipating heat from the reactor body 2, where the heat dissipation component includes an exhaust fan 15, the exhaust fan 15 is connected in the installation box 1, one side of the installation box 1 is connected with a fixing frame 16, one side of the fixing frame 16 is connected with an air inlet pipe, one side of the exhaust fan 15 is connected with a shunt pipe 17, and the fixing frame 16 is connected with a water absorbing sponge plate 18.

During specific implementation, the exhaust fan 15 is started to conveniently blow external cold air into the installation box 1 to cool the reactor body 2 in the installation box 1, the shunt tube 17 conveniently blows the sucked cold air evenly to the reactor body 2, and the water-absorbing sponge plate 18 is arranged to conveniently filter the entered cold air and avoid contacting with the moisture and the reactor body 2.

In addition, a filter screen 19 is connected to the fixed frame 16, which facilitates the filtration of the air entering, and prevents dust from entering the mounting box 1.

The bottom of the installation box 1 is connected with an installation plate, so that the installation box 1 is convenient to install.

Working principle: when the reactor body 2 is impacted in the vertical direction to vibrate, the reactor body 2 drives the mounting plate 4 to slide in the mounting frame 3, the transmission rod 5 connected below the mounting plate 4 drives the two transmission blocks 6 to move back to back and simultaneously drives the pull damping rod 7 and the buffer spring 8 to buffer, the mounting plate 4 can also drive the piston rod 10 to slide in the sealing cylinder 9 while being vertically downward, so that the piston rod 10 extrudes air in the sealing cylinder 9 into the rubber air bag 11, the pressure in the rubber air bag 11 is increased at the moment, and the rubber air bag is inflated to absorb impact energy, and the shape of the rubber air bag 11 is restored after vibration is finished.

Starting air exhauster 15 is convenient to blow in the mounting box 1 with external cold air to dispel the heat to the reactor body 2 in the mounting box 1, and shunt tubes 17 are convenient to blow off the even to the reactor body 2 with the inhalant cold air, and the sponge board 18 that absorbs water that sets up then conveniently filters the cold air that gets into, avoids contacting with moisture and reactor body 2.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a shockproof structure of direct current reactor, includes install bin (1) and establishes reactor body (2) in install bin (1), its characterized in that, the below of reactor body (2) is equipped with shockproof subassembly, shockproof subassembly includes installing frame (3), install frame (3) connect in install bin (1), the interior mounting panel (4) that is equipped with of installing frame (3), the top of mounting panel (4) is connected with the bottom of reactor body (2), the below rotation of mounting panel (4) is equipped with transfer line (5), the other end of transfer line (5) rotates and is equipped with transmission piece (6), one side of transmission piece (6) is connected with damping rod (7), buffer spring (8) have been cup jointed on damping rod (7), install frame (3) in-connection has seal cylinder (9), seal cylinder (9) are equipped with piston rod (10), the top of piston rod (10) is connected with the bottom of mounting panel (4), the both sides of seal cylinder (9) are connected with nipple (11), the other end of connecting with the air bag is connected with nipple (11).

2. The shockproof structure of the direct current reactor according to claim 1, wherein a compression spring (12) is connected to the sealing cylinder (9), and the top of the compression spring (12) is connected to the bottom of the piston rod (10).

3. The shockproof structure of the direct current reactor according to claim 2, wherein balls (13) are embedded in the transmission block (6), the balls (13) are slidably connected to the inner wall of the mounting frame (3), and mounting grooves matched with the balls (13) are formed in the mounting frame (3).

4. A shockproof structure of a direct current reactor according to claim 3, characterized in that, both sides of the mounting plate (4) are connected with guide rods (14), the guide rods (14) are slidably connected on the inner wall of the mounting frame (3), and a chute adapted to the guide rods (14) is provided in the mounting frame (3).

5. The shockproof structure of the direct current reactor according to claim 4, wherein the two sides of the installation box (1) are respectively provided with an inlet wire connection port and an outlet wire connection port.

6. The vibration-proof structure of a dc reactor according to any one of claims 1-5, further comprising a heat-dissipating component for dissipating heat from the reactor body (2), the heat-dissipating component comprising an exhaust fan (15), the exhaust fan (15) being connected in the installation box (1), one side of the installation box (1) being connected with a fixing frame (16), one side of the fixing frame (16) being connected with an air inlet pipe, one side of the exhaust fan (15) being connected with a shunt tube (17), and the fixing frame (16) being connected with a water-absorbing sponge plate (18).

7. The shockproof structure of the direct current reactor according to claim 6, wherein a filter screen (19) is connected in the fixed frame (16).

8. The shockproof structure of the direct current reactor according to claim 7, wherein the bottom of the mounting box (1) is connected with a mounting plate.