CN216774073U - Electric full-automatic energy-saving control device of building - Google Patents

Abstract

The utility model provides an electric full-automatic energy-saving control device for a building, which comprises an electric control cabinet, wherein a base sleeve frame is fixedly connected to the lower bottom surface of the electric control cabinet, an electric control interface end is fixedly installed on the front side in the electric control cabinet, and a temperature controller is fixedly installed at the upper left side in the electric control cabinet. The utility model provides an electrical full-automatic energy-saving control device for a building, which is characterized in that the internal temperature is controlled according to a temperature controller, when the internal temperature exceeds the normal temperature, a screw thread of a servo motor box can be controlled to drive a rotating rod to drive a movable sleeve frame to extend out from the rear side of the interior of an electrical control cabinet, the interior is ventilated and radiated through a main radiating fan module and an auxiliary radiating fan module, a radiating area greatly improved by a radiating structure extends out, the radiating area is increased, convenience is provided for subsequent replacement of a first perforated dust absorption cotton partition plate and a second perforated dust absorption cotton partition plate, and the maintenance process is more humanized.

Description

Electric full-automatic energy-saving control device of building

Technical Field

The utility model relates to the technical field of building electrical, in particular to a full-automatic energy-saving control device for building electrical.

Background

Along with the development of economy, city construction changes day by day, office professional facilities inside modern buildings are complete, the automation degree is high, in order to ensure the reliability and safety of the whole electrical operation of the modern buildings and the advancement of intelligent equipment, the installation method and the installation quality of strong and weak electrical systems in electrical engineering are very important, and the electrical engineering is complex system engineering.

Building electricity is from the broad sense to use the building as the platform, use the electric technology as the platform means, in the limited space, for creating an applied subject of humanized living environment, from the narrow sense to be in the building, utilize modern advanced scientific theory and electric technology, contain electric technology, information technology and intelligent technology etc. to create the electric system of a personal living environment, generally called scope building electricity, each system own equipment is accurate, the structure is complicated, the technology is advanced, safe and reliable, degree of automation is high, it is quite strict to installation method and quality requirement.

But the electric full-automatic energy-saving cabinet inner structure of current building is complicated, is provided with many places interface switch, and inside temperature is higher in the course of the work, and inside does not have the heat radiation structure who corresponds and is used for the heat dissipation, and the inside radiating fan of generally can installing in the rear side in order to improve the radiating effect of current improvement cabinet, but because the inner space is not big, actual radiating effect is not high, still adsorbs the dust easily, consequently, it solves above-mentioned technical problem to necessarily provide an electric full-automatic energy-saving control device of building.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic energy-saving control device for building electric appliances, which solves the problems that a heat radiation fan is generally arranged at the rear side in the conventional improved cabinet in order to improve the heat radiation effect, but the actual heat radiation effect is not high because the internal space is small, and dust is easy to adsorb.

In order to solve the technical problem, the utility model provides an electric full-automatic energy-saving control device for a building, which comprises: an electrical control cabinet;

the base sleeve frame is fixedly connected to the lower bottom surface of the electrical control cabinet, and an electrical control interface end is fixedly mounted on the front side inside the electrical control cabinet;

the temperature controller, temperature controller fixed mounting in the inside upper left side of electrical control cabinet, electrical control cabinet's lower bottom surface fixed mounting has the base baffle, the lower bottom surface of base baffle is connected with the servo motor case, the servo motor case with temperature controller carries out connection control through data, the upside of base baffle is provided with main radiator fan module.

The electric control interface end is an existing inherent structure of the electric control cabinet and is used for connecting electric control, and the temperature controller is existing temperature control equipment and can control the opening state of the servo motor box through temperature.

Preferably, the output ends of the left side and the right side of the surface of the servo motor box are connected with the thread driving rotating rod, sliding limiting notches are formed in the left side and the right side of the upper surface of the base partition plate, and the sliding limiting notches correspond to the position of the thread driving rotating rod up and down.

Preferably, the inside of the sliding limit notch is provided with a nut sleeve through the thread driving rotating rod in a sliding manner, the upper side surface of the nut sleeve is connected with a movable sleeve frame, the left side and the right side of the upper part of the movable sleeve frame are fixedly provided with supporting rods, and the outer side of each supporting rod is movably connected with an auxiliary rotating wheel.

Preferably, the left and right sides position department of the inside rear side upper end of electrical control cabinet all is provided with embedded notch, embedded notch and supplementary runner correspond each other.

Preferably, the middle position of the upper surface of the movable sleeve frame is fixedly provided with a main cooling fan module, the left side and the right side of the main cooling fan module are both connected with auxiliary cooling fan modules, and the auxiliary cooling fan modules and the main cooling fan module integrally form a U-shaped arrangement installation.

The main cooling fan module and the auxiliary cooling fan module are all existing cooling fan equipment, and cooling fans are arranged inside the main cooling fan module and the auxiliary cooling fan module.

Preferably, the outside fixed surface of main radiator fan module installs first cover frame, the surface of first cover frame is used for ventilating from last many openings that down set gradually, the side of first cover frame is provided with the socket, the inside of socket inserts and installs the cotton baffle of first band hole ash absorption, the cotton baffle of first band hole ash absorption with the inside radiator fan cooperation of main radiator fan module can separate the ash in the radiating.

The first perforated dust absorption cotton partition board is made of the existing dust absorption cotton material, and a plurality of holes are formed in the surface of the first perforated dust absorption cotton partition board and used for ventilation and heat dissipation.

Preferably, the outer side surfaces of the auxiliary cooling fan modules are connected with second sleeve frames, the second sleeve frames are identical to the first sleeve frames in structure, and second ash absorption cotton partition plates with holes are inserted into the second sleeve frames.

Compared with the related art, the electric full-automatic energy-saving control device for the building, provided by the utility model, has the following beneficial effects:

the utility model provides a full-automatic energy-saving control device for building electric appliances, which controls the internal temperature according to a temperature controller, can control a screw thread driving rotating rod of a servo motor box to drive a movable sleeve frame to extend outwards from the rear side of the inside of an electric control cabinet when the internal temperature exceeds the normal temperature, ventilates and radiates the inside through a main radiating fan module and an auxiliary radiating fan module, extends outwards to form a radiating area with a greatly improved radiating structure, increases the radiating area, provides convenience for the subsequent replacement of a first perforated dust absorption cotton partition plate and a second perforated dust absorption cotton partition plate, and has more humanized maintenance process.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of an electric full-automatic energy-saving control device for a building, provided by the utility model;

FIG. 2 is a schematic structural diagram of a movable frame of an electric full-automatic energy-saving control device for a building according to the present invention;

FIG. 3 is a schematic structural diagram of a base partition plate of the fully automatic energy-saving control device for building electric appliances provided by the present invention;

FIG. 4 is a schematic structural diagram of a splitting effect of a first frame of the fully automatic energy-saving control device for building electric appliances provided by the present invention;

fig. 5 is a schematic structural diagram of a second embodiment of the electric full-automatic energy-saving control device for a building, provided by the utility model.

Reference numbers in the figures: 1. the electric control cabinet, 2, base cover frame, 3, electric control interface end, 4, temperature controller, 5, base baffle, 6, servo motor case, 7, slip spacing notch, 8, screw drive bull stick, 9, nut cover, 10, remove the cover frame, 11, main radiator fan module, 12, vice radiator fan module, 13, embedded notch, 14, branch, 15, supplementary runner, 16, first cover frame, 17, the socket, 18, first foraminiferous dust absorption cotton baffle, 19, second cover frame, 20, the foraminiferous dust absorption cotton baffle of second, 21, the connecting plate, 22, increase the pole, 23, the shock pad.

Detailed Description

The utility model is further described with reference to the following figures and embodiments.

First embodiment

Please refer to fig. 1, fig. 2, fig. 3 and fig. 4, wherein fig. 1 is a schematic structural diagram of a fully automatic energy-saving control device for building electrical equipment according to a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a movable frame of an electric full-automatic energy-saving control device for a building according to the present invention; FIG. 3 is a schematic structural diagram of a base partition plate of the fully automatic energy-saving control device for building electric appliances provided by the present invention; fig. 4 is a structural schematic diagram of a splitting effect of a first sleeve frame of the electric full-automatic energy-saving control device for buildings, provided by the utility model. The full-automatic energy-saving control device for building electric appliances comprises: an electrical control cabinet 1;

the base sleeve frame 2 is fixedly connected to the lower bottom surface of the electrical control cabinet 1, and an electrical control interface end 3 is fixedly installed on the front side inside the electrical control cabinet 1;

temperature controller 4, temperature controller 4 fixed mounting are in the upper left side of electrical control cabinet 1 inside, and electrical control cabinet 1's lower bottom surface fixed mounting has base baffle 5, and the lower bottom surface of base baffle 5 is connected with servo motor case 6, and servo motor case 6 carries out connection control through data with temperature controller 4, and the upside of base baffle 5 is provided with main radiator fan module 11.

The electric control interface end 3 is an inherent structure of the existing electric control cabinet 1 and is used for connecting electric control, and the temperature controller 4 is existing temperature control equipment and can control the opening state of the servo motor box 6 through temperature.

The output of the left and right sides of the surface of the servo motor box 6 is connected with a screw thread driving rotating rod 8, the left and right sides of the upper surface of the base partition plate 5 are provided with sliding limiting notches 7, and the sliding limiting notches 7 correspond to the screw thread driving rotating rod 8 in position up and down.

The inside of the sliding limiting notch 7 is provided with a nut sleeve 9 in a sliding mode through a thread driving rotating rod 8, the upper side surface of the nut sleeve 9 is connected with a movable sleeve frame 10, the left side and the right side of the upper portion of the movable sleeve frame 10 are fixedly provided with supporting rods 14, and the outer sides of the supporting rods 14 are movably connected with auxiliary rotating wheels 15.

The left and right sides position department of the inside rear side upper end of electrical control cabinet 1 all is provided with embedded notch 13, and embedded notch 13 corresponds each other with supplementary runner 15.

A main cooling fan module 11 is fixedly installed at the middle position of the upper surface of the movable sleeve frame 10, the left side and the right side of the main cooling fan module 11 are both connected with auxiliary cooling fan modules 12, and the auxiliary cooling fan modules 12 and the main cooling fan module 11 are integrally installed in a U-shaped arrangement.

The main cooling fan module 11 and the auxiliary cooling fan module 12 are both conventional cooling fan devices, and cooling fans are disposed inside the cooling fan devices.

The outside fixed surface of main radiator fan module 11 installs first cover frame 16, and the surface of first cover frame 16 is from last down to set gradually many places opening and be used for ventilating, and the side of first cover frame 16 is provided with socket 17, and the inside of socket 17 inserts and installs the cotton baffle 18 of first band hole ash absorption, and the cotton baffle 18 of first band hole ash absorption can separate the ash in radiating with the inside radiator fan cooperation of main radiator fan module 11.

The first perforated partition 18 is made of conventional absorbent cotton, and has a plurality of holes for ventilation and heat dissipation.

The outer side surfaces of the auxiliary cooling fan modules 12 are connected with second sleeves 19, the structures of the second sleeves 19 are the same as those of the first sleeves 16, and second perforated dust absorption cotton partition plates 20 are inserted into the second sleeves 19.

The working principle of the electric full-automatic energy-saving control device for the building provided by the utility model is as follows: when the portable electric control cabinet is used, the electric control interface end 3 on the front side of the electric control cabinet 1 is connected for use, in the working process, the temperature inside the electric control cabinet 1 is controlled according to the temperature controller 4, the screw thread driving rotating rod 8 of the servo motor box 6 can be controlled to rotate when the normal temperature is exceeded, the movable sleeve frame 10 inside the sliding limiting notch 7 is driven to extend outwards from the rear side inside the electric control cabinet 1, the main heat dissipation fan module 11 and the auxiliary heat dissipation fan module 12 on the upper surface are used for ventilating and dissipating the heat inside, the heat dissipation area greatly improved by the heat dissipation structure is extended outwards, the heat dissipation area is increased, and convenience is provided for subsequently replacing the first perforated dust absorption cotton partition plate 18 and the second perforated dust absorption cotton partition plate 20 inside the first sleeve frame 16 and the second sleeve frame 19.

Compared with the related art, the electric full-automatic energy-saving control device for the building, provided by the utility model, has the following beneficial effects:

control the temperature of inside according to temperature controller, can control the screw drive bull stick of servo motor case when exceeding normal temperature and drive the inside rear side that removes the cover frame from the electrical control cabinet and outwards extend, through main radiator fan module, vice radiator fan module carries out ventilation cooling to inside, outwards stretch out the heat dissipation region that heat radiation structure greatly improved, increase heat radiating area, and inhale grey cotton baffle for follow-up first band hole of changing, the foraminiferous grey cotton baffle of inhaling of second provides convenience, the maintenance process is more humanized.

Second embodiment

Referring to fig. 5, fig. 5 is a schematic structural diagram of a second embodiment of an electrical full-automatic energy-saving control device for a building according to the present invention. Based on the electric full-automatic energy-saving control device for the building provided by the first embodiment of the application, the second embodiment of the application provides another electric full-automatic energy-saving control device for the building. The second embodiment is only the preferred mode of the first embodiment, and the implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the difference between the building electric full-automatic energy-saving control device provided by the second embodiment of the present application is that a connecting plate 21 is fixedly mounted on the lower bottom surface of the base sleeve frame 2.

Heightening rods 22 are fixedly mounted at four side positions of the lower bottom surface of the connecting plate 21, and shock absorbing pads 23 are fixedly mounted on the lower bottom surfaces of the heightening rods 22.

The working principle is as follows: in the working process of the main cooling fan module 11 and the auxiliary cooling fan module 12, the overall stability can be improved through the shock pad 23 on the lower bottom surface of the heightening rod 22, and the working stability of the electrical control interface end 3 is ensured.

Has the advantages that: the stability of the device in the working process is further improved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. The utility model provides a full-automatic energy-saving control device of building electricity which characterized in that includes: an electrical control cabinet;

the base sleeve frame is fixedly connected to the lower bottom surface of the electrical control cabinet, and an electrical control interface end is fixedly installed on the front side inside the electrical control cabinet;

the temperature controller, temperature controller fixed mounting in the inside upper left side of electrical control cabinet, electrical control cabinet's lower bottom surface fixed mounting has the base baffle, the lower bottom surface of base baffle is connected with the servo motor case, the servo motor case with temperature controller carries out connection control through data, the upside of base baffle is provided with main radiator fan module.

2. The full-automatic energy-saving control device for building electric appliances according to claim 1, wherein the output ends on the left and right sides of the surface of the servo motor box are connected with screw driving rotating rods, the left and right sides of the upper surface of the base partition plate are provided with sliding limit notches, and the positions of the sliding limit notches and the screw driving rotating rods vertically correspond.

3. The full-automatic energy-saving control device for building electric appliances according to claim 2, wherein a nut sleeve is slidably mounted inside each sliding limiting notch through the threaded driving rotating rod, a movable sleeve frame is connected to the upper side surface of each nut sleeve, supporting rods are fixedly mounted on the left and right sides of the upper portion of each movable sleeve frame, and auxiliary rotating wheels are movably connected to the outer sides of the supporting rods.

4. The full-automatic energy-saving control device for building electric appliances according to claim 1, wherein the electric control cabinet is provided with embedded notches at left and right positions at the upper end of the inner rear side, and the embedded notches correspond to the auxiliary rotating wheels.

5. The full-automatic energy-saving control device for building electric appliances as claimed in claim 3, wherein a main cooling fan module is fixedly installed at a middle position of the upper surface of the movable sleeve frame, auxiliary cooling fan modules are connected to the left and right sides of the main cooling fan module, and the auxiliary cooling fan modules and the main cooling fan module are integrally installed in a U-shaped arrangement.

6. The full-automatic energy-saving control device for building electric appliances according to claim 5, wherein a first sleeve frame is fixedly mounted on the outer side surface of the main cooling fan module, a plurality of openings are sequentially formed in the surface of the first sleeve frame from top to bottom for ventilation, a socket is formed in the side surface of the first sleeve frame, a first band-hole dust absorption cotton partition plate is inserted into the socket, and the first band-hole dust absorption cotton partition plate is matched with a cooling fan in the main cooling fan module to separate dust while cooling.

7. The full-automatic energy-saving control device for building electric appliances as claimed in claim 6, wherein the outer side surfaces of the auxiliary cooling fan modules are connected with second sleeves, the structures of the second sleeves are the same as those of the first sleeves, and second perforated dust absorption cotton partition plates are inserted into the second sleeves.

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