CN220691829U

CN220691829U - Heat dissipation and noise reduction cabinet for reactor

Info

Publication number: CN220691829U
Application number: CN202322417331.2U
Authority: CN
Inventors: 张永强; 方堃
Original assignee: Yangzhou Suhong Electric Technology Co ltd
Current assignee: Yangzhou Suhong Electric Technology Co ltd
Priority date: 2023-09-06
Filing date: 2023-09-06
Publication date: 2024-03-29
Anticipated expiration: 2033-09-06

Abstract

The utility model relates to the technical field of electrical cabinets and discloses a heat-dissipating and noise-reducing cabinet for a reactor, which comprises side plates, front door plates, bottom plates and dust filtering net plates, wherein the front door plates are symmetrically arranged at one ends of the side plates in a rotating way, the bottom plates are arranged at the bottom ends of the side plates, the dust filtering net plates are embedded and arranged at one ends of the front door plates, and air inlet guide plates are fixedly connected to the positions, corresponding to the outer sides of the dust filtering net plates, of one ends of the front door plates.

Description

Heat dissipation and noise reduction cabinet for reactor

Technical Field

The utility model relates to the technical field of electrical cabinets, in particular to a heat-dissipation noise-reduction cabinet for a reactor.

Background

Along with the development of economic technology, the reactor is widely applied in the electric power field of China, and in practical application, the reactor can play roles in limiting current, filtering, improving, maintaining the normal work of a circuit and the like, and the iron core reactor commonly used at present consists of a coil and an iron core, and larger noise can be generated due to the vibration of the coil and the iron core during working; more importantly, due to the existence of the working loss, a large amount of heat can be generated when the reactor runs, if the heat is not discharged timely, the stable running of the reactor can be influenced, and even safety accidents can be caused, so that the reactor needs to be used for a heat-dissipation noise-reduction cabinet special for the reactor.

But when the existing reactor heat dissipation noise reduction rack in the present market uses, outside air gets into inside the rack after, can lead to the inside reactor of rack to appear the problem of wetting, influences the use of reactor, and the vibrations that the reactor produced can be conducted to rack department, and rack and ground produce vibrations and can lead to producing a large amount of noise, can't carry out fine buffering to the rack.

Aiming at the defects of the prior art, the utility model provides the heat dissipation and noise reduction cabinet for the electric reactor, which solves the problems that the electric reactor in the cabinet is affected by damp after external air enters the cabinet, the use of the electric reactor is affected, vibration generated by the electric reactor is conducted to the cabinet, vibration is generated between the cabinet and the ground, a large amount of noise is generated, and the cabinet cannot be well buffered.

Disclosure of Invention

In order to solve the problems that after the external gas enters the cabinet, the reactor in the cabinet is affected with damp, the use of the reactor is affected, vibration generated by the reactor is conducted to the cabinet, the cabinet and the ground vibrate and generate a large amount of noise, and the cabinet cannot be well buffered, the utility model provides the following technical scheme:

the utility model provides a reactor heat dissipation noise reduction rack, includes curb plate, preceding door plant, bottom plate and dust filtering net board, the preceding door plant of symmetrical rotation of one end of curb plate is installed, the bottom plate is installed to the bottom of curb plate, the dust filtering net board is installed to the one end embedding of preceding door plant, the air inlet treatment mechanism is installed to the one end of preceding door plant, air inlet treatment mechanism includes air inlet guide plate, places sleeve pipe and places the ring;

an air inlet guide plate is fixedly connected to one end of the front door plate corresponding to the outer side position of the dust filtering net plate, a placement sleeve is placed in the air inlet guide plate, and a placement ring is fixedly connected to the inner wall of the placement sleeve;

the bottom end of the bottom plate is provided with a buffer mounting mechanism, and the buffer mounting mechanism comprises a contact seat, a mounting seat and a sliding groove;

the bottom fixedly connected with contact seat of bottom plate, the mount pad has been placed to the below of bottom plate, the spout has evenly been seted up to the bottom inner wall of mount pad.

Preferably, the air inlet treatment mechanism further comprises an inner guide pipe, a conductive plate, a drying agent powder bag and an activated carbon powder bag;

the top of placing the ring has placed interior pipe, interior pipe's one end inner wall symmetry fixedly connected with conducting plate, one the one end bonding of conducting plate has drier powder package, another the one end bonding of conducting plate has active carbon powder package.

Preferably, the outer side of the inner catheter is contacted with the inner wall of the placement sleeve, and handles are connected to the top ends of the inner catheter and the placement sleeve.

Preferably, sliding rails are arranged on the inner walls of the two ends of the air inlet guide plate, and the placing sleeve is in limiting sliding connection with the air inlet guide plate through the sliding rails.

Preferably, the buffer mounting mechanism further comprises a fixed rod, a contact block, a buffer spring and a telescopic connecting rod;

the inner wall of one end of the chute is fixedly connected with a fixed rod, the inner wall of the bottom end of the installation seat is symmetrically and slidably provided with a contact block, the outer side of the fixed rod is sleeved with a buffer spring, and the inner wall of the bottom end of the installation seat is uniformly and fixedly connected with a telescopic connecting rod.

Preferably, the bottom of the contact block is located in the chute, and the contact block is slidably connected with the outer side of the fixing rod.

Preferably, one end of the buffer spring is fixedly connected with one end of the contact block, and the top end of the telescopic connecting rod is fixedly connected with the bottom end of the bottom plate.

Compared with the prior art, the utility model provides the heat dissipation and noise reduction cabinet for the reactor, which has the following beneficial effects:

1. through the air inlet treatment mechanism who sets up, can use the baffle that admits air, place sleeve pipe and interior pipe and conduct to use the conduction board to carry out the shape conduction that returns to gas, make gas flow from drier powder package and active carbon powder package outside in proper order, can use the drier powder package to the gas of conduction to absorb moisture and dry, and can use the active carbon powder package to further absorb moisture and dry to the gas of conduction, can absorb the peculiar smell that the inside contained of conveying gas simultaneously, can dry and remove the smell to the gas that gets into the rack inside, reduce the dust and the peculiar smell that get into the inside gas of rack and contain, guaranteed the protection of reactor when the inside use of rack.

2. Through the buffering installation mechanism that sets up, can make two contact pieces produce reverse removal simultaneously through the contact of contact seat with the contact piece, drive the contact piece and remove along the dead lever, drive buffer spring shrink, absorb the vibrations that the contact seat passed to the contact piece, can stabilize when the interval shrink between bottom plate and the mount pad, buffer protection when being convenient for this reactor heat dissipation noise reduction rack uses has increased the stability when this reactor heat dissipation noise reduction rack carries out buffer protection simultaneously, the protectiveness when having improved this reactor heat dissipation noise reduction rack and used.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the intake air treatment mechanism of the present utility model;

FIG. 3 is a schematic view of the mounting structure of the conductive plate and desiccant powder pack of the present utility model;

FIG. 4 is a schematic view of the structure of the buffer mounting mechanism of the present utility model;

reference numerals in the drawings: 1. a side plate; 2. a front door panel; 3. a bottom plate; 4. a dust filtering net plate;

5. an intake air treatment mechanism; 501. an air intake guide plate; 502. placing a sleeve; 503. placing a ring; 504. an inner catheter; 505. a conductive plate; 506. a desiccant powder pack; 507. an active carbon powder bag;

6. a buffer mounting mechanism; 601. a contact base; 602. a mounting base; 603. a chute; 604. a fixed rod; 605. a contact block; 606. a buffer spring; 607. a telescopic connecting rod.

Description of the embodiments

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Examples: the utility model provides a technical scheme, as shown in fig. 1-4, a reactor heat dissipation and noise reduction cabinet comprises a side plate 1, a front door plate 2, a bottom plate 3 and a dust filtering net plate 4, wherein one end of the side plate 1 is symmetrically and rotatably provided with the front door plate 2, the bottom plate 3 is arranged at the bottom end of the side plate 1, one end of the front door plate 2 is embedded and provided with the dust filtering net plate 4, one end of the front door plate 2 is provided with an air inlet treatment mechanism 5, and the air inlet treatment mechanism 5 comprises an air inlet guide plate 501, a placement sleeve 502 and a placement ring 503;

one end of the front door plate 2 is fixedly connected with an air inlet guide plate 501 at the position corresponding to the outer side of the dust filtering net plate 4, a placement sleeve 502 is placed in the air inlet guide plate 501, sliding rails are arranged on the inner walls of the two ends of the air inlet guide plate 501, the placement sleeve 502 is in limit sliding connection with the air inlet guide plate 501 through the sliding rails, the placement sleeve 502 is convenient to enter the air inlet guide plate 501 along the sliding rails, and a placement ring 503 is fixedly connected to the inner wall of the placement sleeve 502;

the intake air treatment mechanism 5 further includes an inner conduit 504, a conductive plate 505, a desiccant powder pack 506, and an activated carbon powder pack 507;

the inner conduit 504 is placed on the top end of the placement ring 503, the outer side of the inner conduit 504 is in contact with the inner wall of the placement sleeve 502, the tightness between the inner conduit 504 and the placement sleeve 502 is improved, handles are connected to the top ends of the inner conduit 504 and the placement sleeve 502, the handles are convenient to use to lift the inner conduit 504 and the placement sleeve 502, one end inner wall of the inner conduit 504 is symmetrically and fixedly connected with a conducting plate 505, one end of one conducting plate 505 is adhered with a desiccant powder bag 506, and one end of the other conducting plate 505 is adhered with an activated carbon powder bag 507.

The bottom end of the bottom plate 3 is provided with a buffer mounting mechanism 6, and the buffer mounting mechanism 6 comprises a contact seat 601, a mounting seat 602 and a sliding groove 603;

the bottom end of the bottom plate 3 is fixedly connected with a contact seat 601, a mounting seat 602 is arranged below the bottom plate 3, and sliding grooves 603 are uniformly formed in the inner wall of the bottom end of the mounting seat 602;

the buffer mounting mechanism 6 further comprises a fixed rod 604, a contact block 605, a buffer spring 606 and a telescopic connecting rod 607;

one end inner wall fixedly connected with dead lever 604 of spout 603, the bottom inner wall symmetry slidable mounting of mount pad 602 has contact block 605, the bottom of contact block 605 is located the inside of spout 603, and contact block 605 and the outside sliding connection of dead lever 604, convenient to use dead lever 604 makes contact block 605 steadily slide along spout 603, buffer spring 606 has been cup jointed in the outside of dead lever 604, the even fixedly connected with expansion link 607 of bottom inner wall of mount pad 602, the one end of buffer spring 606 and the one end fixed connection of contact block 605, be convenient for use buffer spring 606 to carry out elastic connection between contact block 605 and the inner wall of mount pad 602, the top of expansion link 607 and the bottom fixed connection of bottom plate 3, be convenient for use expansion link 607 is connected between bottom plate 3 and the mount pad 602.

Working principle: when the reactor heat dissipation and noise reduction cabinet is used, external gas can enter the air inlet guide plate 501 in the cabinet from the dust filtering net plate 4, the air inlet guide plate 501, the placement sleeve 502 and the inner guide pipe 504 can be used for conducting the entering gas, then the conducting plate 505 can be used for conducting the gas in a loop shape, so that the gas flows from the outer sides of the drying agent powder bag 506 and the active carbon powder bag 507 in sequence, the drying agent powder bag 506 can be used for carrying out moisture absorption and drying on the conducted gas, the active carbon powder bag 507 can be used for further carrying out moisture absorption and drying on the conducted gas, and meanwhile, the active carbon powder bag 507 can be used for absorbing peculiar smell contained in the conducting gas, so that the gas entering the cabinet can be dried and deodorized when the cabinet is subjected to heat dissipation, dust and peculiar smell contained in the gas entering the cabinet are reduced, and protection of the reactor when the reactor is used in the cabinet is ensured;

when the reactor heat dissipation and noise reduction cabinet is used, the collision received by the cabinet can be conducted to the contact seat 601, the contact between the contact seat 601 and the contact block 605 is combined, two contact blocks 605 can simultaneously generate reverse movement, the contact block 605 can be driven to move along the fixed rod 604 on the inner wall of the sliding groove 603, the buffer spring 606 is driven to shrink, the shock transmitted to the contact block 605 by the contact seat 601 is absorbed, meanwhile, the telescopic connecting rod 607 between the bottom plate 3 and the mounting seat 602 can stabilize the space between the bottom plate 3 and the mounting seat 602 during shrinkage, so that the buffer protection of the reactor heat dissipation and noise reduction cabinet during use is facilitated, the stability of the reactor heat dissipation and noise reduction cabinet during buffer protection is improved, and the protection of the reactor heat dissipation and noise reduction cabinet during use is improved.

Finally, it should be noted that: the foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. The utility model provides a cabinet of making an uproar falls in reactor heat dissipation, includes curb plate (1), preceding door plant (2), bottom plate (3) and dust filtering net board (4), door plant (2) are installed in the one end symmetry rotation of curb plate (1), bottom plate (3) are installed to the bottom of curb plate (1), dust filtering net board (4) are installed in the one end embedding of preceding door plant (2), its characterized in that: an air inlet treatment mechanism (5) is arranged at one end of the front door plate (2), and the air inlet treatment mechanism (5) comprises an air inlet guide plate (501), a placement sleeve (502) and a placement ring (503);

an air inlet guide plate (501) is fixedly connected to one end of the front door plate (2) corresponding to the outer side position of the dust filtering net plate (4), a placement sleeve (502) is placed in the air inlet guide plate (501), and a placement ring (503) is fixedly connected to the inner wall of the placement sleeve (502);

the bottom end of the bottom plate (3) is provided with a buffer installation mechanism (6), and the buffer installation mechanism (6) comprises a contact seat (601), an installation seat (602) and a chute (603);

the bottom fixedly connected with contact seat (601) of bottom plate (3), mount pad (602) have been placed to the below of bottom plate (3), spout (603) have evenly been seted up to the bottom inner wall of mount pad (602).

2. A reactor heat dissipation and noise reduction cabinet according to claim 1, characterized in that the air intake handling mechanism (5) further comprises an inner conduit (504), a conductive plate (505), a desiccant powder pack (506) and an activated carbon powder pack (507);

an inner guide pipe (504) is arranged at the top end of the placement ring (503), a conductive plate (505) is symmetrically and fixedly connected to the inner wall of one end of the inner guide pipe (504), a desiccant powder bag (506) is adhered to one end of one conductive plate (505), and an activated carbon powder bag (507) is adhered to one end of the other conductive plate (505).

3. The reactor heat dissipation and noise reduction cabinet according to claim 2, wherein the outer side of the inner conduit (504) is in contact with the inner wall of the placement sleeve (502), and handles are connected to the top ends of the inner conduit (504) and the placement sleeve (502).

4. The heat dissipation and noise reduction cabinet for the reactor according to claim 2, wherein sliding rails are arranged on inner walls of two ends of the air inlet guide plate (501), and the placement sleeve (502) is in limiting sliding connection with the air inlet guide plate (501) through the sliding rails.

5. The reactor heat dissipation and noise reduction cabinet according to claim 1, wherein the buffer mounting mechanism (6) further comprises a fixed rod (604), a contact block (605), a buffer spring (606) and a telescopic link (607);

one end inner wall fixedly connected with dead lever (604) of spout (603), bottom inner wall symmetry slidable mounting of mount pad (602) has contact block (605), buffer spring (606) have been cup jointed in the outside of dead lever (604), the even fixedly connected with expansion link (607) of bottom inner wall of mount pad (602).

6. The reactor heat dissipation and noise reduction cabinet according to claim 5, wherein the bottom end of the contact block (605) is located inside the chute (603), and the contact block (605) is slidably connected to the outer side of the fixing rod (604).

7. The reactor heat dissipation and noise reduction cabinet according to claim 5, wherein one end of the buffer spring (606) is fixedly connected with one end of the contact block (605), and the top end of the telescopic connecting rod (607) is fixedly connected with the bottom end of the bottom plate (3).