CN215772084U - Embedded block terminal of building electrical automation wall - Google Patents

Abstract

The utility model discloses an embedded distribution box for an electric automation wall of a building, which comprises a through hole and a collecting column; the collecting columns are arranged on the left side and the right side of the power distribution cabinet, and heat dissipation through holes are uniformly formed in the front sides of the collecting columns; the power distribution cabinet is characterized by also comprising a middle fan and a copper column, wherein the middle fan is connected inside the power distribution cabinet through a bearing, and the upper side and the lower side of the inside of the power distribution cabinet are both provided with through grooves with diameters smaller than the diameter of a hemisphere; the copper column is arranged above the inside of the power distribution cabinet, an air bag for extruding the alarm is arranged inside the copper column, and the alarm is arranged inside the power distribution cabinet; in addition, pillar, side gear and side fan are installed to this embedded block terminal of building electric automatization wall, and then accelerate the radiating effect of switch board, avoid the phenomenon of the too high emergence conflagration of the temperature of switch board inside, and the temperature passes through the copper post and transmits for the gasbag, and then makes the gasbag inflation extrude the alarm, and the alarm sends the alarm sound in order to remind peripheral people.

Description

Embedded block terminal of building electrical automation wall

Technical Field

The utility model relates to the technical field of distribution boxes, in particular to an embedded distribution box for an electric automation wall of a building.

Background

The distribution box has the functions of distributing electric energy, protecting safety, facilitating circuit opening and closing and the like, protects the electric safety, avoids the phenomena of short circuit and electric shock of electric equipment, and protects the personal safety, for example, a building electric automation wall embedded distribution box with the publication number of CN209434695U comprises an embedded part and a distribution box body arranged in the embedded part, a plurality of radiators are arranged on the inner wall of the embedded part, the radiators are connected with the distribution box body through heat dissipation pipelines, a plurality of damping springs are also arranged between the radiators and the distribution box body, two clamping columns are fixed on the inner wall of the embedded part, and buckles are arranged on the clamping columns, and the buckles and the limiting rods are mutually matched … …, so that the heat dissipation speed of the distribution box is increased, the vibration generated when the distribution box is used is reduced, the maintenance and the maintenance of the distribution box are facilitated, the structure is simple and ingenious, the use is convenient, and the popularization is easy; however, the distribution box still has certain problems when in use;

1. the distribution box has poor heat dissipation effect, fire is easily caused due to overhigh internal temperature, certain potential safety hazard exists, and meanwhile, the function of prompting people that the internal temperature reaches a dangerous value is not provided;

2. the distribution box is installed on a wall surface through threads, and a screw is easily rusted due to long-time contact with moisture in the air, so that a large amount of time is consumed in the process of disassembling the distribution box;

therefore, the embedded distribution box for the building electrical automation wall can well solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an embedded distribution box for an electrical automation wall of a building, and aims to solve the problems that the distribution box in the prior market has poor heat dissipation effect and is inconvenient to mount and dismount.

In order to achieve the purpose, the utility model provides the following technical scheme: an embedded distribution box for an electric automation wall of a building comprises a through hole and a collecting column;

the collecting columns are arranged on the left side and the right side of the power distribution cabinet, and radiating through holes are uniformly formed in the front sides of the collecting columns;

further comprising:

the middle fan is connected to the inside of the power distribution cabinet through a bearing, and the upper side and the lower side of the inside of the power distribution cabinet are both provided with through grooves with diameters smaller than the diameter of a hemisphere;

the copper column is arranged above the inside of the power distribution cabinet, an air bag for extruding the alarm is arranged inside the copper column, and the alarm is arranged inside the power distribution cabinet;

and the wall body is arranged on the rear side of the power distribution cabinet.

Preferably, the collecting column comprises:

a pillar mounted on the inner right side of the collection column;

the chain mechanism is connected to the right side of the support column through a bearing, side fans for blowing and sucking air are connected to the front side and the rear side of the support column through bearings, and a side gear for driving the side fans to rotate is fixedly penetrated in the middle of a side fan shaft;

the bevel gear group is arranged at the top end of the chain mechanism, and a first belt pulley for driving the gap gear to rotate penetrates through the middle of a shaft of the bevel gear group, so that the side fan can not rotate any more and the position can be changed.

Preferably, the method further comprises the following steps:

the left side of the sector gear is meshed with a clearance gear rotating in a clearance mode, and the right side of the sector gear is meshed with a side gear which is symmetrical relative to the center line of the support;

and the second belt pulley penetrates through the middle of the shafts of the middle fan and the sector gear, so that the sector gear and the second belt pulley rotate synchronously.

Preferably, the wall body includes:

the fixed column is installed both sides about the front side of wall body, the front end of fixed column is fixed elastic hemisphere, realizes the extrusion to leading to the groove, and then realizes the fixed to the switch board.

Preferably, the method further comprises the following steps:

spacing post runs through to be fixed the rear side of fixed column, the centre of fixed column runs through to have the diameter to be greater than the ball of hemisphere diameter, and the convenience is to the dismantlement of switch board, reduces operating procedure.

Preferably, the pillar is "T" shape structure, and the pillar passes through the awl tooth group and rotates in the inside of collecting the post, it has certain elasticity to lead to the groove, makes two front and back side gears change the position, and then accelerates inside thermal speed of giving off.

Compared with the prior art, the utility model has the beneficial effects that: the building electric automation wall embedded distribution box;

(1) the power distribution cabinet is provided with a support column, a side gear and a side fan, wherein the support column rotates to enable the side fan to rotate back and forth, so that the flowing direction of wind is changed, hot air in an internal power distribution cabinet and a collecting column is distributed, cold air outside can enter the power distribution cabinet, the heat dissipation effect of the power distribution cabinet is accelerated, the phenomenon that fire disaster occurs due to overhigh temperature in the power distribution cabinet is avoided, the temperature is transmitted to an air bag through a copper column, the air bag is further expanded to extrude an alarm, and the alarm gives out alarm sound to remind surrounding people;

(2) be provided with the fixed column, lead to groove and hemisphere, the fixed column and then realize fixing the switch board to the inside that leads to the groove, need not fix through the screw thread, avoid the screw rusty phenomenon to appear, remove through the ball and make fixed column and switch board separation, realize the change to the switch board.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the main section structure of the present invention;

FIG. 3 is an enlarged view of a portion a of FIG. 2 according to the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3 according to the present invention;

FIG. 5 is a schematic side sectional view of a copper pillar according to the present invention;

fig. 6 is a schematic view of a mounting structure of a power distribution cabinet and a wall body.

In the figure: 1. a power distribution cabinet; 2. a through hole; 3. collecting the column; 301. a chain mechanism; 302. a side fan; 303. a side gear; 304. a set of bevel teeth; 305. a first pulley; 306. a sector gear; 307. a clearance gear; 308. a second pulley; 309. a pillar; 4. a middle fan; 5. a through groove; 6. a copper pillar; 7. an air bag; 8. an alarm; 9. a wall body; 901. fixing a column; 902. a hemisphere; 903. a limiting column; 904. and (4) a ball.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an embedded distribution box for an electric automation wall of a building comprises a through hole 2 and a collecting column 3;

the collecting columns 3 are arranged on the left side and the right side of the power distribution cabinet 1, and radiating through holes 2 are uniformly formed in the front sides of the collecting columns 3;

the method comprises the following steps:

the middle fan 4 is connected to the inside of the power distribution cabinet 1 through a bearing, and the upper side and the lower side of the inside of the power distribution cabinet 1 are both provided with through grooves 5 with the diameter smaller than that of the hemisphere 902;

the copper column 6 is arranged above the inside of the power distribution cabinet 1, an air bag 7 for extruding the alarm 8 is arranged inside the copper column 6, and the alarm 8 is arranged inside the power distribution cabinet 1;

and the wall 9 is arranged on the rear side of the power distribution cabinet 1.

The collection column 3 includes: a pillar 309 mounted on the inner right side of the collection column 3; a chain mechanism 301, a bearing is connected to the right side of the strut 309, both the front and rear sides of the strut 309 are bearing-connected with a side fan 302 for blowing and sucking air, and a side gear 303 for driving the side fan 302 to rotate is fixed in the middle of the shaft of the side fan 302 in a penetrating manner; a bevel gear group 304 arranged at the top end of the chain mechanism 301, wherein a first belt pulley 305 driving the gap gear 307 to rotate penetrates through the middle of the shaft of the bevel gear group 304; also includes: a sector gear 306, a bearing is connected to the inside of the power distribution cabinet 1, the left side of the sector gear 306 is meshed with a gap gear 307 rotating with a gap, and the right side of the sector gear 306 is meshed with a side gear 303 symmetrical with the center line of a strut 309; a second pulley 308 passing through the middle of the shafts of the middle fan 4 and the sector gear 306; the support 309 is in a T-shaped structure, the support 309 rotates inside the collecting column 3 through the bevel gear group 304, and the through groove 5 has certain elasticity;

referring to fig. 1-5, the middle fan 4 is driven by the electrical equipment inside the power distribution cabinet 1, the middle fan 4 drives the second pulley 308 to rotate, the second pulley 308 drives the sector gear 306 to rotate synchronously, when the sector gear 306 rotates to be meshed with the side gear 303, the sector gear 306 rotates to drive the side gear 303 at the front side of the support column 309 to rotate, the side gear 303 drives the side fan 302 to rotate synchronously, the side fan 302 rotates to discharge the internal hot air of the power distribution cabinet 1, when the sector gear 306 rotates to be not meshed with the side gear 303, the sector gear 306 just meshes with the clearance gear 307, the sector gear 306 rotates to drive the clearance gear 307 to rotate, the clearance gear 307 rotates to drive the first pulley 305 to rotate synchronously, the first pulley 305 rotates to drive the bevel gear set 304 to rotate synchronously, the bevel gear set 304 rotates to drive the support column 309 to rotate synchronously, and further the side fan 302 at the rear side of the support column 309 rotates to the front side, at this moment, the sector gear 306 is just not meshed with the gap gear 307, the sector gear 306 is meshed with the side gear 303, the side fan 302 rotates to enable outside cold air to enter the collecting column 3 and the power distribution cabinet 1, cold and hot air exchange is achieved, when power consumption of the power distribution cabinet 1 is too large, the temperature of the inside of the power distribution cabinet 1 is too high, heat is transmitted to the outer side of the copper column 6 and then transmitted to the inner air bag 7, mercury in the air bag 7 enables the air bag 7 to expand to press the alarm 8 due to the principle of expansion caused by heat and contraction caused by cold, and the alarm 8 gives an alarm sound to remind surrounding people.

The wall body 9 includes: the fixed columns 901 are arranged at the upper and lower sides of the front side of the wall body 9, and elastic hemispheres 902 are fixed at the front ends of the fixed columns 901; further comprising: a limiting column 903 which penetrates through and is fixed at the rear side of the fixed column 901, and a round ball 904 with the diameter larger than that of the hemisphere 902 penetrates through the middle of the fixed column 901;

combine fig. 1 and fig. 6, need install when switch board 1, with switch board 1 to the inside promotion of wall body 9, because it all has elasticity to lead to groove 5 and hemisphere 902, switch board 1 removes to drive and leads to groove 5 synchronous motion, lead to groove 5 and extrude hemisphere 902, move around fixed column 901 until leading to groove 5, stop moving switch board 1, the realization is to switch board 1's installation, when needs are changed switch board 1, with the inside promotion switch board 1 of hand to wall body 9, ball 904 extrudees logical groove 5, make logical groove 5 and ball 904's external diameter laminating, outwards remove switch board 1, switch board 1 drives ball 904 and outwards removes in step, when ball 904 moves and contacts with hemisphere 902, lead to groove 5 and ball 904 break away from and contact with hemisphere 902, until leading to groove 5 and hemisphere 902 complete separation, realize the dismantlement to switch board 1.

When the building electrical automation wall embedded distribution box is used, the replacement position of the side fan 302 is changed by rotating the support 309 through combining with figures 1-6, so that the air inside the distribution cabinet 1 is exchanged with the cold air outside, the heat dissipation effect is improved, the phenomenon of fire disaster caused by the small temperature bearing capacity of the distribution cabinet 1 is avoided, the distribution cabinet 1 is fixed through the hemisphere 902, the distribution cabinet 1 is separated from the hemisphere 902 through the movement of the sphere 904, the distribution cabinet 1 is convenient to install and disassemble, and the content which is not described in detail in the description belongs to the prior art known by professional technicians in the field.

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 various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. An embedded distribution box for an electric automation wall surface of a building comprises a through hole (2) and a collecting column (3);

the collecting columns (3) are arranged on the left side and the right side of the power distribution cabinet (1), and radiating through holes (2) are uniformly formed in the front sides of the collecting columns (3);

it is characterized by comprising:

the middle fan (4) is connected to the inside of the power distribution cabinet (1) through a bearing, and through grooves (5) with the diameter smaller than that of the hemisphere (902) are formed in the upper side and the lower side of the inside of the power distribution cabinet (1);

the copper column (6) is arranged above the inside of the power distribution cabinet (1), an air bag (7) for extruding the alarm (8) is arranged inside the copper column (6), and the alarm (8) is arranged inside the power distribution cabinet (1);

and the wall body (9) is arranged on the rear side of the power distribution cabinet (1).

2. A building electric automation wall embedded distribution box according to claim 1 characterized in that the collecting column (3) comprises:

a strut (309) mounted on the inner right side of the collection column (3);

the chain mechanism (301) is connected to the right side of the support column (309) in a bearing mode, side fans (302) for blowing and sucking air are connected to the front side and the rear side of the support column (309) in a bearing mode, and a side gear (303) for driving the side fans (302) to rotate penetrates through and is fixed in the middle of the shafts of the side fans (302);

the bevel gear set (304) is arranged at the top end of the chain mechanism (301), and a first belt pulley (305) for driving the gap gear (307) to rotate penetrates through the middle of the shaft of the bevel gear set (304).

3. The embedded distribution box of building electric automatization wall of claim 2 characterized in that, also includes:

the sector gear (306) is connected to the inside of the power distribution cabinet (1) in a bearing mode, the left side of the sector gear (306) is meshed with a gap gear (307) rotating in a gap mode, and the right side of the sector gear (306) is meshed with a side gear (303) symmetrical to the center line of the support column (309);

a second pulley (308) passing through the middle of the shafts of the middle fan (4) and the sector gear (306).

4. A building electric automation wall embedded electric distribution box according to claim 1, characterized in that the wall (9) comprises:

the fixing columns (901) are arranged on the upper side and the lower side of the front side of the wall body (9), and elastic hemispheres (902) are fixed at the front ends of the fixing columns (901).

5. The embedded block terminal of building electric automatization wall of claim 4, characterized by further comprising:

the limiting column (903) penetrates through and is fixed on the rear side of the fixing column (901), and a round ball (904) with the diameter larger than that of the hemisphere (902) penetrates through the middle of the fixing column (901).

6. The embedded block terminal of building electric automatization wall of claim 2, characterized in that: the support column (309) is of a T-shaped structure, the support column (309) rotates inside the collecting column (3) through the conical tooth group (304), and the through groove (5) is elastic.

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