CN211958528U - Unpowered radiating energy-saving electric power switch cabinet - Google Patents

Abstract

The utility model discloses an unpowered radiating electric power energy-saving switch cabinet, including the cabinet body and backup pad, the upside of the cabinet body has the installation base through the bolt fastening, and the upside integration of installing the base is provided with stainless steel wind ball, the funnel is installed to the inside top of the cabinet body, and the outside of funnel closely laminates and have the active carbon sponge, the inside welding of backup pad has the one end of spring, the outside of locating piece closely laminates there is the collar, and the upside integration of collar is provided with first fixed plate to first fixed plate is installed on the cabinet body, the outside welding of the cabinet body has aluminum plate. This unpowered radiating energy-conserving cubical switchboard of electric power can carry out unpowered heat dissipation, strengthens inside circulation of air, realizes unpowered heat dissipation, and is energy-conserving high-efficient, and can increase the area of contact of heat and air, guarantees the radiating effect, can effectively avoid the dust to get into inside, prevents that the dust from influencing the inside part function.

Description

Unpowered radiating energy-saving electric power switch cabinet

Technical Field

The utility model relates to a cubical switchboard technical field specifically is a power-free radiating electric power energy-saving switch cabinet.

Background

The switch cabinet is an electrical product which plays roles of power generation, power distribution, electric energy conversion and the like in an electric power system, components such as a current transformer, an isolating switch, a transformer and the like are usually arranged in the switch cabinet, the switch cabinet is divided into an outdoor switch cabinet and an indoor switch cabinet, the switch cabinet placed outdoors needs to pay attention to the problems of moisture resistance, heat dissipation and the like, and the switch cabinet in the market is various, but still has some defects;

for example, the conventional switch cabinet is inconvenient to dissipate heat without power, weak in internal air circulation and poor in heat dissipation effect, and dust easily enters the interior to influence the operation of parts, so that the switch cabinet is provided to solve the problems.

Disclosure of Invention

An object of the utility model is to provide a power-free radiating electric power energy-saving switch cabinet to solve the inconvenient unpowered heat dissipation of the current switch cabinet that proposes in the above-mentioned background art, inside circulation of air is less strong, and the radiating effect is relatively poor, and the dust gets into the problem of the function of inside influence part easily.

In order to achieve the above object, the utility model provides a following technical scheme: an unpowered heat-dissipation power energy-saving switch cabinet comprises a cabinet body and a supporting plate, wherein an installation base is fixed on the upper side of the cabinet body through bolts, a stainless steel wind ball is integrally arranged on the upper side of the installation base, a ventilating funnel is installed above the interior of the cabinet body, activated carbon sponge is tightly attached to the outer side of the ventilating funnel, a positioning block is welded inside the supporting plate, a positioning block is installed at the other end of the spring, an adjusting rod is fixed on the lower side of the positioning block, an installation ring is tightly attached to the outer side of the positioning block, a first fixing plate is integrally arranged on the upper side of the installation ring and is installed on the cabinet body, an aluminum plate is welded on the outer side of the cabinet body, an aluminum heat dissipation plate is fixed on the outer side of the aluminum plate, a bottom plate is installed on the lower side of the, and the inner side of the second fixing plate is welded with a fixing rod.

Preferably, the longitudinal section of the ventilating duct is of a porous structure, the ventilating duct and the activated carbon sponge are connected in a clamping groove connection mode, and the lower side of the activated carbon sponge and the upper side of the supporting plate are tightly attached.

Preferably, the positioning block forms a sliding structure on the supporting plate through an adjusting rod, and the longitudinal section of the adjusting rod is of an L-shaped structure.

Preferably, the first fixing plate is distributed on the mounting ring at equal angles, the mounting ring is connected with the positioning block in a clamping groove connection mode, and the outer side of the positioning block protrudes out of the outer side of the mounting ring.

Preferably, the aluminum heat dissipation plates are arranged on the aluminum plate at equal intervals, and the aluminum heat dissipation plates are symmetrically distributed about a vertical central axis of the cabinet body.

Preferably, the fixing rods are distributed on the second fixing plate in an array manner, the second fixing plate is symmetrically arranged about a vertical central axis of the bottom plate, and the length of the cross section of the bottom plate is greater than that of the cabinet body.

Compared with the prior art, the beneficial effects of the utility model are that: the unpowered radiating power-saving switch cabinet can perform unpowered radiating, strengthen internal air circulation, realize unpowered radiating, save energy and have high efficiency, increase the contact area of heat and air, ensure the radiating effect, effectively avoid dust from entering the interior and prevent the dust from influencing the operation of internal parts;

1. the stainless steel wind ball is blown by airflow to rotate on the mounting base, so that air circulation inside the cabinet body is enhanced, heat is dissipated from the ventilating duct, unpowered heat dissipation can be realized, unpowered heat dissipation is realized, energy is saved, efficiency is high, the activated carbon sponge can prevent dust from entering the inside of the cabinet body from the ventilating duct, and the dust is prevented from influencing the operation of internal parts;

2. the cabinet is provided with the aluminum plate, the aluminum heat dissipation plate and the second fixing plate, the contact area of heat and air on the cabinet body can be increased through the aluminum heat dissipation plate which is distributed on the outer side of the aluminum plate at equal intervals, the heat dissipation effect is enhanced, the second fixing plate and the aluminum plate form a cold lane structure, the air circulation between the aluminum plate and the second fixing plate can be enhanced through the cold lane principle, the contact area of the heat and the air can be increased, and the heat dissipation effect is ensured;

3. be provided with the locating piece, adjust pole and first fixed plate, through inside promotion regulation pole, make on the regulation pole fixed locating piece break away from and the draw-in groove of collar is connected, take off the backup pad from the collar, take off the active carbon sponge, make the active carbon sponge break away from and the closely laminating of draft tube, make things convenient for the dismouting active carbon sponge.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the connection structure of the funnel and the activated carbon sponge of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

fig. 4 is a schematic view of the connection structure of the fixing rod and the second fixing plate of the present invention.

In the figure: 1. a cabinet body; 2. stainless steel wind balls; 3. installing a base; 4. a funnel; 5. activated carbon sponge; 6. a support plate; 7. a spring; 8. positioning blocks; 9. adjusting a rod; 10. a mounting ring; 11. a first fixing plate; 12. an aluminum plate; 13. an aluminum heat dissipation plate; 14. a base plate; 15. fixing the rod; 16. and a second fixing plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an unpowered heat-dissipation power energy-saving switch cabinet comprises a cabinet body 1, a stainless steel wind ball 2, an installation base 3, a ventilating duct 4, an activated carbon sponge 5, a supporting plate 6, a spring 7, a positioning block 8, an adjusting rod 9, an installation ring 10, a first fixing plate 11, an aluminum plate 12, an aluminum heat dissipation plate 13, a bottom plate 14, a fixing rod 15 and a second fixing plate 16, wherein the installation base 3 is fixed on the upper side of the cabinet body 1 through bolts, the stainless steel wind ball 2 is integrally arranged on the upper side of the installation base 3, the ventilating duct 4 is arranged above the interior of the cabinet body 1, the activated carbon sponge 5 is tightly attached to the outer side of the ventilating duct 4, one end of the spring 7 is welded in the supporting plate 6, the positioning block 8 is arranged at the other end of the spring 7, the adjusting rod 9 is fixed on the lower side of the positioning block 8, the installation ring 10 is tightly attached to the outer side of, and the first fixed plate 11 is installed on the cabinet body 1, the aluminum plate 12 is welded on the outer side of the cabinet body 1, the aluminum heat dissipation plate 13 is fixed on the outer side of the aluminum plate 12, the bottom plate 14 is installed on the lower side of the cabinet body 1 through bolts, the second fixed plate 16 is integrally arranged on the upper side of the bottom plate 14, and the fixed rod 15 is welded on the inner side of the second fixed plate 16.

As shown in fig. 1 and 4, the aluminum heat dissipation plates 13 are arranged on the aluminum plate 12 at equal intervals, and the aluminum heat dissipation plates 13 are symmetrically distributed about the vertical central axis of the cabinet 1, so that the contact area between heat and air can be effectively increased, as shown in fig. 1 and 4, the fixing rods 15 are distributed on the second fixing plates 16 in an array manner, the second fixing plates 16 are symmetrically arranged about the vertical central axis of the bottom plate 14, the length of the cross section of the bottom plate 14 is greater than that of the cabinet 1, and the heat dissipation is enhanced by using the cold lane principle;

as shown in fig. 1, fig. 2 and fig. 3, the longitudinal section of the funnel 4 is a porous structure, and the funnel 4 and the activated carbon sponge 5 are connected by a clamping groove, and the lower side of the activated carbon sponge 5 is tightly attached to the upper side of the supporting plate 6, so as to effectively enhance the air circulation inside the cabinet 1, as shown in fig. 2 and fig. 3, the first fixing plate 11 is equiangularly distributed on the mounting ring 10, and the mounting ring 10 and the positioning block 8 are connected by a clamping groove, and the outer side of the positioning block 8 protrudes out of the mounting ring 10, so as to effectively fix the supporting plate 6 and the mounting ring 10, as shown in fig. 3, the positioning block 8 forms a sliding structure on the supporting plate 6 by the adjusting rod 9, and the longitudinal section of the adjusting rod 9 is of an L-shaped structure, thereby facilitating the adjustment of the position of the positioning block 8.

The working principle is as follows: when the unpowered heat-dissipation power energy-saving switch cabinet is used, firstly, as shown in the attached drawing 1, when air circulates outside the cabinet body 1, the air flow blows the stainless steel wind balls 2 to rotate on the mounting base 3, the air circulation inside the cabinet body 1 is enhanced, the working principle of the stainless steel wind balls 2 is consistent with that of the stainless steel wind balls 2 on the market, when air circulates inside the cabinet body 1, heat inside the cabinet body 1 can be dissipated from the ventilating duct 4, the activated carbon sponge 5 tightly attached to the outer side of the ventilating duct 4 prevents dust from entering the inside of the cabinet body 1 from the ventilating duct 4, the aluminum heat dissipation plates 13 distributed at equal intervals outside the aluminum plates 12 can increase the contact area of the heat and the air on the cabinet body 1, the heat dissipation effect is enhanced, and the second fixing plates 16 and the aluminum plates 12 which are arranged in bilateral symmetry about the bottom plate 14 form a cold tunnel structure through the intervals between the aluminum plates 12 and the second fixing plates 16, the "cold lane principle" can enhance the air circulation between the aluminum plate 12 and the second fixing plate 16;

when the activated carbon sponge 5 needs to be disassembled and cleaned, as shown in fig. 1, fig. 2 and fig. 3, the adjusting rod 9 is pushed inwards to separate the positioning block 8 fixed on the adjusting rod 9 from being connected with the clamping groove of the mounting ring 10, the supporting plate 6 is taken down from the mounting ring 10 to be separated from being connected with the clamping groove of the mounting ring 10, the activated carbon sponge 5 is taken down to separate the activated carbon sponge 5 from being tightly attached with the ventilating tube 4, the activated carbon sponge 5 can be cleaned, a new activated carbon sponge 5 is inserted between the ventilating tube 4 and the first fixing plate 11 to tightly attach the outer side of the ventilating tube 4 with the inner side of the activated carbon sponge 5, the supporting plate 6 is connected with the clamping groove of the mounting ring 10, the adjusting rod 9 is loosened, the positioning block 8 is pushed to slide in the supporting plate 6 under the elastic action of the spring 7 to connect the positioning block 8 with the clamping groove of the mounting ring 10, the supporting plate 6 and the mounting ring 10 are fixed to support the activated carbon sponge 5, so as to complete a series of operations of the unpowered radiating power saving switch cabinet, and the contents not described in detail in the present specification belong to the prior art known to those skilled in the art.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a power-free radiating energy-saving electric power switch cabinet, includes the cabinet body (1) and backup pad (6), its characterized in that: the upper side of the cabinet body (1) is fixedly provided with an installation base (3) through bolts, the upper side of the installation base (3) is integrally provided with a stainless steel wind ball (2), a ventilating duct (4) is installed above the inner part of the cabinet body (1), the outer side of the ventilating duct (4) is tightly attached with an activated carbon sponge (5), the inner part of the supporting plate (6) is welded with one end of a spring (7), the other end of the spring (7) is provided with a positioning block (8), the lower side of the positioning block (8) is fixedly provided with an adjusting rod (9), the outer side of the positioning block (8) is tightly attached with a mounting ring (10), the upper side of the mounting ring (10) is integrally provided with a first fixing plate (11), the first fixing plate (11) is installed on the cabinet body (1), the outer side of the cabinet body (1) is welded with an aluminum plate (12), and the outer side of the, the lower side of the cabinet body (1) is provided with a bottom plate (14) through a bolt, a second fixing plate (16) is integrally arranged on the upper side of the bottom plate (14), and a fixing rod (15) is welded on the inner side of the second fixing plate (16).

2. The unpowered heat dissipating electric energy saving switch cabinet according to claim 1, characterized in that: the longitudinal section of draft tube (4) is porous structure, and draft tube (4) and active carbon sponge (5) adopt the mode of draw-in groove connection to be connected, and the upside of the downside of active carbon sponge (5) and backup pad (6) closely laminates.

3. The unpowered heat dissipating electric energy saving switch cabinet according to claim 1, characterized in that: the positioning block (8) forms a sliding structure on the supporting plate (6) through the adjusting rod (9), and the longitudinal section of the adjusting rod (9) is of an L-shaped structure.

4. The unpowered heat dissipating electric energy saving switch cabinet according to claim 1, characterized in that: the first fixing plate (11) is distributed on the mounting ring (10) at equal angles, the mounting ring (10) is connected with the positioning block (8) in a clamping groove connection mode, and the outer side of the positioning block (8) protrudes out of the outer side of the mounting ring (10).

5. The unpowered heat dissipating electric energy saving switch cabinet according to claim 1, characterized in that: the aluminum heat dissipation plates (13) are arranged on the aluminum plate (12) at equal intervals, and the aluminum heat dissipation plates (13) are symmetrically distributed around the vertical central axis of the cabinet body (1).

6. The unpowered heat dissipating electric energy saving switch cabinet according to claim 1, characterized in that: the fixing rods (15) are distributed on the second fixing plate (16) in an array manner, the second fixing plate (16) is symmetrically arranged about a vertical central axis of the bottom plate (14), and the length of the cross section of the bottom plate (14) is greater than that of the cabinet body (1).

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