CN214852162U - Public building energy management protector - Google Patents

Abstract

The utility model relates to an energy building's field discloses a public building energy management protector, locate the protection housing in the energy management equipment main part including the cover, the ventilation hole has been seted up on the lateral wall of protection housing, the apopore has been seted up to the bottom of protection housing lateral wall, in the protection housing with the corresponding position in ventilation hole is provided with hides the rain subassembly, be provided with the lifting in the protection housing hide the lifting mechanism of rain subassembly, the top of protection housing is fixed with glass and covers, be provided with control in the glass covers lifting mechanism moving water droplet sensor. This application has and makes energy management equipment dispel the heat fast to guarantee the effect that energy management equipment normally worked.

Description

Public building energy management protector

Technical Field

The application relates to the field of energy buildings, in particular to a public building energy management protection device.

Background

Energy management is the general term for scientific planning, organization, inspection, control and supervision of the overall process of production, distribution, conversion and consumption of energy. The ability to manage devices is often made up of a variety of computing devices and is therefore particularly important for the protection of energy management devices.

Especially in public building place, energy management equipment often exposes in public field of vision, in order to effectively protect energy management equipment, often will establish a protective housing in the equipment dustcoat to hinder energy management equipment main part to suffer the striking damage.

With respect to the related art in the above, the inventors consider that: after covering and establishing a protective housing on energy management equipment, can cause energy management equipment's radiating effect relatively poor, do not possess quick heat dissipation function, and then cause energy management equipment to produce the damage because of high temperature easily.

SUMMERY OF THE UTILITY MODEL

In order to make energy management equipment dispel the heat fast, in order to guarantee that energy management equipment normally works, this application provides a public building energy management protector.

The application provides a public building energy management protector adopts following technical scheme:

the utility model provides a public building energy management protector, locates the protection housing in the energy management equipment main part including covering, the ventilation hole has been seted up on the lateral wall of protection housing, the apopore has been seted up to the bottom of protection housing lateral wall, in the protection housing with the corresponding position in ventilation hole is provided with hides the rain subassembly, be provided with the lifting in the protection housing hide the lifting mechanism of rain subassembly, the top of protection housing is fixed with the glass cover, be provided with control in the glass cover lifting mechanism moving water droplet sensor.

Through adopting above-mentioned technical scheme, when non-rainy day, external environment's natural wind can get into the protective housing through the ventilation hole in, when rainy day, the rainwater can be perceived to the water droplet sensor, and then can give lifting mechanism transmission signal, lifting mechanism moves, utilize lifting mechanism will hide the rain subassembly and remove to the position corresponding with the ventilation hole, and then can hinder the rainwater touch in the energy management equipment main part, and can flow out the protective housing through the apopore by the rainwater that hides the rain subassembly and blocks.

Preferably, the rain shielding component comprises a first rain shielding plate, a second rain shielding plate and a third rain shielding plate which are sequentially stacked from the hole opening of the ventilation hole inwards, the side edges of the two sides of the first rain shielding plate are provided with a first slide rail fixedly connected to the inner wall of the protective housing in a sliding manner, the side edges of the two sides of the second rain shielding plate are provided with a second slide rail fixedly connected to the inner wall of the protective housing in a sliding manner, the side edges of the two sides of the third rain shielding plate are provided with a third slide rail fixedly connected to the inner wall of the protective housing in a sliding manner, the top parts of the first slide rail, the second slide rail and the third slide rail are consistent in height and close to the top part of the protective housing, the bottom part of the first slide rail is positioned at one side of the ventilation hole, the bottom part of the third slide rail is close to the bottom part of the protective housing, the bottom part of the second slide rail is positioned at the middle position between the bottom parts of the first slide rail, and the bottom edge of the second rain shielding plate is fixedly connected with a first lifting plate positioned under the first rain shielding plate, and a lifting plate II is fixedly connected to the bottom edge of the rain shielding plate III and is positioned right below the rain shielding plate II, and the lifting mechanism lifts the rain shielding plate III.

Through adopting above-mentioned technical scheme, when needs accomodate sunshade component, utilize lifting mechanism lifting dash board three, two lifting boards on the dash board three can contact with two base contacts of dash board, then utilize two lifting boards lifting dash board two, lifting board one on the dash board two can contact with the base of dash board one, then utilize lifting board one lifting dash board one, and then can stack dash board one, dash board two and dash board three, so that accomodate sunshade component.

Preferably, the lifting mechanism comprises a driving motor arranged in the protective housing, a first winding rod coaxially connected to an output shaft of the driving motor, and a pull rope with one end fixedly connected to the first winding rod and the other end fixedly connected to the third rain shield.

Through adopting above-mentioned technical scheme, utilize driving motor to drive a rolling rod and rotate, a rolling rod rotates and makes the stay cord around locating rolling rod on, and then can drive the lifting in the flashing three-dimensional.

Preferably, the lifting mechanism further comprises a roller rotatably arranged on the side wall of the protective cover shell, and the pull rope is wound on the roller.

Through adopting above-mentioned technical scheme, utilize the gyro wheel, can be so that the stay cord along the translation of predetermineeing the route, and then can hinder the stay cord to take place winding possibility to guarantee lifting mechanism's normal operating.

Preferably, the protection housing is rectangular and has all been seted up on the lateral wall all around the ventilation hole, lifting mechanism still includes the worm of coaxial coupling on the winding rod one, with worm meshed worm wheel, coaxial coupling in the winding rod two of worm wheel, wherein two stay cord rigid couplings that are parallel to each other are on winding rod one in the protection housing, and two stay cord rigid couplings that are parallel to each other are on winding rod two in addition.

Through adopting above-mentioned technical scheme, utilize actuating mechanism can drive the first rotation of winding-up lever, the first worm that drives of winding-up lever rotates, and the worm drives the worm wheel and rotates, and the worm wheel can drive the second rotation of winding-up lever, therefore can realize utilizing a driving motor to drive simultaneously that winding-up lever one and winding-up lever two rotate simultaneously, and then can accomodate simultaneously the subassembly that hides rain on four lateral walls in the housing.

Preferably, the driving motor is installed on the top surface of the inner cavity of the protective casing.

Through adopting above-mentioned technical scheme, install driving motor on the top surface of protective housing inner chamber, can hinder on transmitting the vibration that driving motor brought to the energy management equipment main part, reduce to cause the damage to the energy management equipment main part.

Preferably, a drainage arc plate is fixedly connected to the inner wall of the protective housing, the drainage arc plate corresponds to the water outlet hole, and the rain shielding assembly is located above the drainage arc plate.

Through adopting above-mentioned technical scheme, utilize the drainage arc board, can be with hiding rainwater drainage to outlet opening department on the rain subassembly, and then the discharge of the rainwater of being convenient for.

Preferably, the ventilation holes are strip-shaped, and a plurality of ventilation holes which are parallel to each other are sequentially arranged at the bottom of the protective cover shell upwards.

Through adopting above-mentioned technical scheme, set up the ventilation hole into the bar hole, can increase the drill way area in ventilation hole to improve heat radiating area.

In summary, the present application includes at least one of the following beneficial technical effects:

by arranging the vent holes and the rain shielding assemblies, natural wind of the external environment can enter the protective cover shell through the vent holes in non-rainy days, the water drop sensors can sense rainwater in rainy days and then transmit signals to the lifting mechanism, the lifting mechanism runs, the rain shielding assemblies are moved to positions corresponding to the vent holes by the lifting mechanism, rainwater can be prevented from touching the energy management equipment main body, and rainwater blocked by the rain shielding assemblies can flow out of the protective cover shell through the water outlet holes;

by arranging the lifting mechanism, when the sun shading component needs to be stored, the lifting mechanism is used for lifting the third rain shielding plate, the second lifting plate on the third rain shielding plate can be contacted with the bottom edge of the second rain shielding plate, then the second lifting plate is used for lifting the second rain shielding plate, the first lifting plate on the second rain shielding plate can be contacted with the bottom edge of the first rain shielding plate, then the first lifting plate is used for lifting the first rain shielding plate, and further the first rain shielding plate, the second rain shielding plate and the third rain shielding plate can be stacked so as to be convenient for storing the rain shielding component;

through setting up the drainage arc board, utilize the drainage arc board, can hide the rainwater drainage on the rain subassembly to outlet opening department, and then the discharge of the rainwater of being convenient for.

Drawings

Fig. 1 is a schematic view of the overall structure of a guard device according to an embodiment of the present application.

Fig. 2 is a partial structural schematic view of fig. 1, mainly illustrating the overall construction of the rain shelter assembly and the lifting mechanism.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 mainly illustrates a partial configuration of the rain shielding assembly in fig. 2.

Fig. 5 mainly illustrates the configuration of the lifting mechanism in fig. 2.

Description of reference numerals: 100. a protective housing; 101. a vent hole; 102. a water outlet hole; 200. an energy management device main body; 300. a base; 2. a rain shielding assembly; 201. mounting a plate; 21. a first rain shielding plate; 211. a first slide rail; 22. a second rain shielding plate; 221. a second slide rail; 222. lifting the first plate; 23. a third rain shielding plate; 231. a third slide rail; 232. lifting the second plate; 3. a lifting mechanism; 301. a first supporting seat; 302. a second supporting seat; 31. a drive motor; 32. a first coiling rod; 33. pulling a rope; 34. a roller; 35. a worm; 36. a worm gear; 37. a second coiling rod; 4. a glass cover; 5. a water droplet sensor; 6. and (4) a drainage arc plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses public building energy management protector. Referring to fig. 1, the protection device includes a protection enclosure 100 covering an energy management device main body 200, a base 300 for installing the protection enclosure 100 is disposed at the bottom of the protection enclosure 100, the protection enclosure 100 is rectangular, vent holes 101 are disposed on four side walls of the protection enclosure 100, the vent holes 101 are strip-shaped holes, a plurality of vent holes 101 parallel to each other are sequentially disposed along the bottom side of the side wall of the protection enclosure 100, and a space is disposed between the vent holes 101 far from the bottom side of the protection enclosure 100 and the top of the protection enclosure 100. Still seted up apopore 102 on every lateral wall of protective housing shell 100, apopore 102 is close to protective housing shell 100's base and is located the below in ventilation hole 101, and apopore 102 and base 300's top surface intercommunication, apopore 102 is close to the inside one side of protective housing shell 100 and is provided with drainage arc board 6, the length direction of drainage arc board 6 is unanimous with the length direction in ventilation hole 101, a side of 6 length direction of drainage arc board is close to the drill way of apopore 102, the side of opposite side is located the one side of keeping away from the drill way of apopore 102 and is located the top in apopore 102 drill way, and drainage arc board 6 concave is to base 300.

Referring to fig. 2, four rain shielding assemblies 2 are disposed in the protective housing 100, and the four rain shielding assemblies 2 correspond to four side walls of the protective housing 100, respectively. The rain shielding component 2 comprises a first rain shielding plate 21, a second rain shielding plate 22 and a third rain shielding plate 23 which are parallel to each other, the second rain shielding plate 22 is positioned between the first rain shielding plate 21 and the third rain shielding plate 23, the first rain shielding plate 21 is close to the inner wall of the protective housing 100, and the third rain shielding plate 23 is positioned right above the drainage arc plate 6. The heights of the first rain shielding plate 21, the second rain shielding plate 22 and the third rain shielding plate 23 are consistent, and the sum of the heights of the first rain shielding plate 21, the second rain shielding plate 22 and the third rain shielding plate 23 is larger than the distance between the topmost and bottommost ventilation holes 101 which are sequentially arranged; the side wall of the protective cover shell 100 parallel to the rain shield is vertically and fixedly connected with two mounting plates 201, the two mounting plates 201 are arranged, the rain shielding plate is symmetrically arranged on two sides of the two side edges of the rain shielding plate, the first sliding rails 211 are arranged on the two side edges of the first rain shielding plate 21 in a sliding mode, the first sliding rails 211 are vertically and fixedly connected onto the mounting plate 201, the second sliding rails 221 are arranged on the two side edges of the second rain shielding plate 22 in a sliding mode, the second sliding rails 221 are vertically and fixedly connected onto the mounting plate 201, the third sliding rails 231 are arranged on the two side edges of the third rain shielding plate 23 in a sliding mode, the third sliding rails 231 are vertically and fixedly connected onto the mounting plate 201, the heights of the first sliding rails 211, the second sliding rails 221 and the tops of the third sliding rails 231 are consistent and close to the top of the protective cover 100, the bottoms of the third sliding rails 231 are close to the middle between the top-most vent holes 101 and the bottom-most vent holes 101 which are sequentially arranged, and the bottoms of the first sliding rails 211 are located above the bottoms of the second sliding rails 221; the bottom edge of the second rain shielding plate 22 is fixedly connected with a first lifting plate 222, the first lifting plate 222 extends towards one side of the first rain shielding plate 21 and extends to the position right below the bottom edge of the first rain shielding plate 21, the bottom edge of the third rain shielding plate 23 is fixedly connected with a second lifting plate 232, and the second lifting plate 232 extends towards one side of the second rain shielding plate 22 and extends to the position right below the bottom edge of the second rain shielding plate 22.

Referring to fig. 2, a lifting mechanism 3 is further disposed in the protective housing 100, the lifting mechanism 3 includes a driving motor 31, a first winding rod 32, a pull rope 33, a roller 34, a worm 35, a worm wheel 36, and a second winding rod 37, the driving motor 31 is mounted on the top surface of the inner cavity of the protective housing 100, the first winding rod 32 is coaxially connected to an output shaft of the driving motor 31, the worm 35 is coaxially connected to one end of the first winding rod 32, which is far away from the output shaft of the driving motor 31, one end of the worm 35, which is far away from the winding rod, is provided with a first support seat 301 fixedly connected to the top surface of the protective housing 100, the second winding rod 37 is perpendicular to the first winding rod 32, the second winding rod 37 is located right below the worm 35, the worm wheel 36 is coaxially connected to the second winding rod 37 and mutually engaged with the worm 35, and two ends of the second winding rod 37 are provided with second support seats 302 fixedly connected to the top surface of the protective housing 100; the pull ropes 33 are four, the four pull ropes 33 are cross-shaped and are respectively fixedly connected to the top edges of the three rain shielding plates 23 in the four rain shielding assemblies 2, the end, far away from the three rain shielding plates 23, of each pull rope 33 is fixedly connected to the roller 34 on the winding rod perpendicular to the pull rope, the four rollers 34 are all installed on the top of the protective housing 100, the roller 34 is located right above the three rain shielding plates 23, and the pull ropes 33 are wound on the rollers 34.

The first winding rod 32 is driven to rotate by the driving motor 31, the first winding rod 32 drives the worm 35 to rotate, the worm 35 drives the worm wheel 36 to rotate, the worm wheel 36 can drive the second winding rod 37 to rotate, the first winding rod 32 and the second winding rod 37 rotate simultaneously, and the pull rope 33 can be wound on the winding rods, so that the third flashing plate 23 can be driven to lift upwards, the second lifting plate 232 on the third flashing plate 23 can be in contact with the bottom edge of the second flashing plate 22, then the second lifting plate 232 is used for lifting the second flashing plate 22, the first lifting plate 222 on the second flashing plate 22 can be in contact with the bottom edge of the first flashing plate 21, then the first lifting plate 222 is used for lifting the first flashing plate 21, and then the first flashing plate 21, the second flashing plate 22 and the third flashing plate 23 can be stacked to facilitate storage of the flashing assembly 2.

Referring to fig. 2, a glass cover 4 is fixedly connected to the top of the protective housing 100, a water drop sensor 5 is disposed in the glass cover 4, the water drop sensor 5 can detect whether it rains, and when it detects that it rains, the water drop sensor 5 will give a signal to a controller, and the controller will control the driving motor 31 to operate.

The implementation principle of the public building energy management protection device in the embodiment of the application is as follows: when the rainy day, the natural wind of external environment can get into in the protective housing shell 100 through ventilation hole 101, when the rainy day, rainwater can be perceived to water droplet sensor 5, and then can give lifting mechanism 3 transmission signal, lifting mechanism 3 moves, utilize lifting mechanism 3 to move the subassembly 2 that hides rain to the position corresponding with ventilation hole 101, and then can hinder the rainwater to touch on the energy management equipment main part 200, and can flow out protective housing shell 100 through apopore 102 by the rainwater that hides rain subassembly 2 to block, after the rainy day, lifting mechanism 3 rolls up stay cord 33 to the winding rod, can make and hide rain subassembly 2 and accomodate the top to ventilation hole 101, so that ventilate in to protective housing shell 100.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a public building energy management protector, includes that the cover is located the protective housing cover (100) on the energy management equipment main part, its characterized in that: the utility model discloses a rain shielding device, including protection housing (100), protection housing (100) and window, the ventilation hole (101) has been seted up on the lateral wall of protection housing (100), apopore (102) have been seted up to the bottom of protection housing (100) lateral wall, in protection housing (100) with the corresponding position in ventilation hole (101) is provided with hides rain subassembly (2), be provided with the lifting in protection housing (100) hide the lifting mechanism (3) of rain subassembly (2), the top of protection housing (100) is fixed with glass cover (4), be provided with control in glass cover (4) lifting mechanism (3) moving water droplet sensor (5).

2. A public building energy management safeguard according to claim 1, wherein: the rain shielding component (2) comprises a first rain shielding plate (21), a second rain shielding plate (22) and a third rain shielding plate (23) which are sequentially stacked from the hole opening of the ventilation hole (101), the side edges of the two sides of the first rain shielding plate (21) are provided with a first sliding rail (211) fixedly connected to the inner wall of the protective housing (100) in a sliding manner, the side edges of the two sides of the second rain shielding plate (22) are provided with a second sliding rail (221) fixedly connected to the inner wall of the protective housing (100) in a sliding manner, the side edges of the two sides of the three rain shielding plate (23) are provided with a third sliding rail (231) fixedly connected to the inner wall of the protective housing (100) in a sliding manner, the first sliding rail (211), the second sliding rail (221) and the top of the third sliding rail (231) are identical in height and are close to the top of the protective housing (100), the bottom of the first sliding rail (211) is located on one side of the ventilation hole (101), and the bottom of the third sliding rail (231) is close to the bottom of the protective housing (100), the bottom of the second sliding rail (221) is located at the middle position between the bottom of the first sliding rail (211) and the bottom of the third sliding rail (231), a first lifting plate (222) located under the first flashing (21) is fixedly connected to the bottom edge of the second flashing (22), a second lifting plate (232) located under the second flashing (22) is fixedly connected to the bottom edge of the third flashing (23), and the third flashing (23) is lifted by the lifting mechanism (3).

3. A public building energy management safeguard according to claim 2, wherein: the lifting mechanism (3) comprises a driving motor (31) arranged in the protective housing (100), a first winding rod (32) coaxially connected to an output shaft of the driving motor (31), and a pull rope (33) with one end fixedly connected to the first winding rod (32) and the other end fixedly connected to the third flashing plate (23).

4. A public building energy management safeguard according to claim 3, wherein: the lifting mechanism (3) further comprises a roller (34) rotatably arranged on the side wall of the protective housing (100), and the pull rope (33) is wound on the roller (34).

5. A public building energy management safeguard according to claim 3, wherein: protection housing (100) are cube form and all seted up on the lateral wall all around ventilation hole (101), lifting mechanism (3) still include worm (35) on rolling rod one (32), worm wheel (36) with worm (35) meshing, two (37) of rolling rod of coaxial coupling in worm wheel (36), wherein two stay cord (33) rigid couplings that are parallel to each other are on rolling rod one (32) in protection housing (100), and stay cord (33) rigid couplings that other two are parallel to each other are on rolling rod two (37).

6. A public building energy management safeguard according to claim 3, wherein: the driving motor (31) is arranged on the top surface of the inner cavity of the protective cover shell (100).

7. A public building energy management safeguard according to claim 1, wherein: the inner wall of the protective housing (100) is fixedly connected with a drainage arc plate (6), the drainage arc plate (6) corresponds to the water outlet hole (102), and the rain shielding component (2) is located above the drainage arc plate (6).

8. A public building energy management safeguard according to claim 1, wherein: the ventilation holes (101) are in a strip shape, and the bottom of the protective cover shell (100) is upwards provided with a plurality of ventilation holes (101) which are parallel to each other in sequence.

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