CN213880737U - Distributed power saving device for electronic engineering - Google Patents

Abstract

The utility model discloses a distributed power saving device for electronic engineering, which comprises a mounting plate and a cooling energy-saving mechanism; mounting a plate: the upper surface of the energy-saving box is provided with the energy-saving box, the front side surface of the energy-saving box is of an open structure, the right end of the front side surface of the energy-saving box is hinged to the left side surface of the box door through a hinge, the box door corresponds to the open position of the front side surface of the energy-saving box, the right side surface of the box door is provided with the plug board which is uniformly distributed, the inserting posts are inserted into the plug board, the left side surface of the energy-saving box is provided with the positioning pipes which are uniformly distributed, the positioning pipes correspond to the plug board, the inner wall of the rear side of each positioning pipe is provided with the magnet, the left side surface of the energy-saving box is provided with the fan, the bottom end of the energy-saving box is provided with the energy saver, the placing boards which are uniformly distributed are arranged inside the energy-saving box, the.

Description

Distributed power saving device for electronic engineering

Technical Field

The utility model relates to an electronic engineering technical field specifically is an electronic engineering distributing type power saving device.

Background

The electronic engineering is also called weak current technology or information technology, can be further subdivided into electrical measurement technology, adjustment technology and electronic technology, along with the rapid development of the times, in order to save electric energy, a power saver is utilized to enable the power saver to automatically absorb the energy of reverse potential of high-voltage power equipment and continuously feed back the energy to a load so as to achieve the purpose of saving electricity, the existing distributed electricity saving device of the electronic engineering needs to be arranged in the same control cabinet for meeting the application of different degrees, the centralized placement of electric appliances is easy to generate high temperature under the contact work so as to achieve the expected purpose of saving electricity, the device is inconvenient to clean and clean, the operation of personnel is inconvenient, the dust in the air cannot be effectively filtered, the temperature of the working environment of the electric appliances cannot be controlled, the electric energy loss cannot be reduced, and the installation and the positioning of the filtering device cannot be stably supported and guided, the reliability and stability of the device are affected, external rainwater cannot be effectively prevented from permeating, and the safety of electrical equipment cannot be protected, so that the realization of the distributed power saving device for electronic engineering is imperative to solve the problems.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide an electronic engineering distributing type power saving device, dust in the effective filtered air, control reduces the electrical energy loss to electrical equipment operational environment's temperature, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a distributed power saving device for electronic engineering comprises a mounting plate and a cooling energy-saving mechanism;

mounting a plate: the upper surface of the energy-saving box is provided with an energy-saving box, the front side surface of the energy-saving box is of an open structure, the right end of the front side surface of the energy-saving box is hinged with the left side surface of a box door through a hinge, the box door corresponds to the open position of the front side surface of the energy-saving box, the right side surface of the box door is provided with plug boards which are uniformly distributed, plug posts are plugged in the plug boards, the left side surface of the energy-saving box is provided with positioning pipes which are uniformly distributed, the positioning pipes correspond to the plug boards in position, the inner wall of the rear side of each positioning pipe is provided with a magnet, the left side surface of the energy-saving box is provided with a fan, the bottom end of the energy-saving box is provided with an energy-saving device, the energy-saving box is internally provided with placing boards which are uniformly distributed, an air outlet pipe is arranged at the air outlet on the upper surface of the energy-saving box, the air outlet pipe is internally provided with limiting grooves which are symmetrically distributed left and right, sliding plates which are connected with sliding plates which are symmetrically distributed up and down, the middle parts of the sliding plates which are uniformly distributed, the through holes which are fixedly connected with the upper ends and the upper ends of the fixing columns respectively, the outer cambered surface of the air outlet pipe is provided with air outlet holes which are uniformly distributed;

cooling and energy saving mechanism: the air outlet of the fan is connected with the air inlet on the left side surface of the cooling and energy-saving mechanism;

wherein: still include the control switch group, the control switch group sets up the upper surface in the mounting panel, external power source is connected to the input electricity of control switch group, the equal electric connection control switch group's of input of fan and energy-saving appliance output, be convenient for clear up the device inside and clean, make things convenient for personnel's operation, dust in the effective filtration air, control is to electrical equipment operational environment's temperature, reduce the electric energy loss, the stable support direction is to filter equipment's installation and location, the reliable stability of the improvement device, effectively prevent the infiltration of external rainwater, the safety of protection electrical equipment.

Further, cooling energy-saving mechanism includes convex slot and support body, convex slot longitudinal symmetry sets up in the left side inner wall of energy-saving box, and the convex slot all pegs graft with the lug of support body left surface, is convenient for clear up the inside of device and cleans, makes things convenient for personnel's operation.

Further, cooling energy-saving mechanism still includes the diffusion tube, the diffusion piece, filter screen and filter, the diffusion tube sets up in the left side inner wall of energy-saving box, the air outlet of fan passes through the through-hole of energy-saving box left surface and links to each other with the air intake of diffusion tube, the diffusion tube is located the inside of support body, the inside of diffusion tube is equipped with the diffusion piece, the inside right side of support body is equipped with even transverse distribution's filter, the inside of filter all is equipped with even longitudinal distribution's filter screen, dislocation distribution about two horizontal adjacent filter screens are all, effectively filter the dust in the air, control is to electrical equipment operational environment's temperature, reduce power consumption.

Further, the upper and lower surface of support body all is equipped with the handle, and the bottom right side of support body is equipped with the guide way, and the bottom inner wall of energy-saving box is equipped with even longitudinal distribution's guide bar, and the guide bar all pegs graft with the guide way, and the stable supporting direction improves the reliable stability of device to filter equipment's installation and location.

Furthermore, the upper surface of energy-saving box is equipped with the support column that bilateral symmetry distributes, the top of support column all with the bottom fixed connection of dash board, effectively prevents the infiltration of external rainwater, protection electrical equipment's safety.

Compared with the prior art, the beneficial effects of the utility model are that: the distributed power saving device for the electronic engineering has the following advantages:

1. when the temperature in the energy-saving box rises under the continuous work of the electrical equipment, the control switch group controls the fan to start to operate at the moment, the air generated by the fan expands the blowing area through the diffusion pipe and the diffusion sheet, when the air passes through the filter plate, the dust in the air is filtered through the filter screen, the influence of large-particle dust entering the energy-saving box on the work of the electrical equipment is avoided, the air is uniformly blown to the inside of the energy-saving box, the electrical equipment is uniformly cooled through the through hole in the middle of the placing plate, the redundant air starts to simultaneously slide upwards in the limiting groove in the air outlet pipe after passing through the through hole in the middle of the sliding plate at the bottom end, the hot air is discharged outwards through the air outlet hole, when the temperature in the energy-saving box reaches a proper range, the fan is controlled to stop operating, and the sliding plate loses the action of the air force at the moment, because the dead weight is in the inside spacing inslot of outlet duct downwardly sliding to the bottommost, avoid external dust to pass through the venthole and get into to the inside of energy-saving box, guarantee that electrical equipment's operational environment is clean and tidy, guarantee to carry out effectual dust filtration to the wind that the fan blew off, guarantee that electrical equipment carries out work under suitable environment, avoid the high temperature to produce the influence to electrical equipment's work, save the electric energy.

2. When the dust of energy-saving box inside needs is cleared up, open the chamber door, utilize the handle with support body and convex slot cancellation grafting to with guide bar and guide way cancellation grafting, utilize outside cleaning device to clear up the filter screen, keep the clean health of energy-saving box internal environment, avoid dust impurity to influence electrical equipment's operation, do benefit to electrical equipment normal operation work.

Drawings

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

FIG. 2 is a schematic view of the cooling and energy saving mechanism of the present invention;

fig. 3 is an enlarged schematic view of the a position of the present invention.

In the figure: the energy-saving cooling box comprises a mounting plate 1, a guide groove 2, a guide rod 3, a cooling energy-saving mechanism 4, a convex slot 41, a diffusion tube 42, a diffusion sheet 43, a frame body 44, a filter screen 45, a filter plate 46, a positioning tube 5, a control switch group 6, an energy-saving box 7, a fan 8, a magnet 9, a handle 10, a support column 11, a rain shielding plate 12, an air outlet hole 13, an air outlet tube 14, an insertion column 15, a plug board 16, a box door 17, an energy saver 18, a placing board 19 and a sliding board 20.

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. 1-3, the present invention provides a technical solution: a distributed power saving device for electronic engineering comprises a mounting plate 1 and a cooling energy-saving mechanism 4;

mounting plate 1: the upper surface of the energy-saving box 7 is provided with an energy-saving box 7, the front side surface of the energy-saving box 7 is of an open structure, the right end of the front side surface of the energy-saving box 7 is hinged with the left side surface of a box door 17 through a hinge, the box door 17 corresponds to the open position of the front side surface of the energy-saving box 7, the right side surface of the box door 17 is provided with an insert plate 16 which is uniformly distributed, the insert plate 16 is inserted inside, the left side surface of the insert plate 16 is provided with an insert column 15, the left side surface of the energy-saving box 7 is provided with a positioning pipe 5 which is uniformly distributed, the positioning pipe 5 corresponds to the insert plate 16, the inner wall of the rear side of the positioning pipe 5 is provided with a magnet 9, the left side surface of the energy-saving box 7 is provided with a fan 8, the bottom end of the energy-saving box 7 is provided with an energy-saving device 18, the energy-saving box 7 is internally provided with placing plates 19 which are uniformly distributed, the air outlet pipe 14 is arranged at the air outlet at the upper surface of the energy-saving box 7, the air outlet pipe 14 is internally provided with limiting grooves which is symmetrically distributed left and right, the limiting grooves, and the limiting grooves are connected with sliding plates 20 which are symmetrically distributed up and down, the middle part of the sliding plate 20 at the bottom end is provided with through holes which are evenly distributed, the opposite inner side surfaces of the two sliding plates 20 are respectively fixedly connected with the upper end and the lower end of the fixed column, the outer arc surface of the air outlet pipe 14 is provided with air outlet holes 13 which are evenly distributed, the mounting plate 1 is fixedly mounted on a proper horizontal working ground by utilizing external bolts through mounting holes which are symmetrically distributed at four corners of the upper surface of the mounting plate 1, external electrical equipment is positioned and connected with a wire through a placing plate 19, after the wire connection is finished, the box door 17 is closed, at the moment, the inserting columns 15 are inserted into the corresponding inserting plates 16 towards the rear side, the inserting columns 15 are inserted into the corresponding positioning pipes 5 until the front ends of the inserting columns 15 are completely attached to the front side surfaces of the corresponding magnets 9, the sealing rings on the front side surfaces of the box door 17 enhance the sealing performance of the energy-saving box 7, the energy-saving device 18 is controlled to start working, and the energy-saving device 18 automatically absorbs reverse potential energy of the external electrical equipment, the redundant wind starts to slide upwards in the limiting groove in the air outlet pipe 14 simultaneously after passing through the through hole in the middle of the sliding plate 20 at the bottom end, and the hot wind is discharged to the outside through the air outlet hole 13, and the sliding plate 20 slides downwards in the limiting groove in the air outlet pipe 14 to the bottom end due to self weight under the action of losing wind force, so that the external dust is prevented from entering the energy-saving box 7 through the air outlet hole 13;

cooling and energy saving mechanism 4: the cooling energy-saving mechanism 4 comprises a convex slot 41 and a frame body 44, the convex slot 41 is symmetrically arranged on the left inner wall of the energy-saving box 7 up and down, the convex slot 41 is connected with a convex block on the left side of the frame body 44 in an inserting manner, the cooling energy-saving mechanism 4 further comprises a diffusion tube 42, a diffusion sheet 43, a filter screen 45 and a filter plate 46, the diffusion tube 42 is arranged on the left inner wall of the energy-saving box 7, the air outlet of the fan 8 is connected with the air inlet of the diffusion tube 42 through a through hole on the left side of the energy-saving box 7, the diffusion tube 42 is positioned inside the frame body 44, the diffusion sheet 43 is arranged inside the diffusion tube 42, the filter plate 46 is uniformly and transversely distributed on the right side of the inside of the frame body 44, the filter screen 45 is uniformly and longitudinally distributed inside the filter plate 46, two filter screens 45 which are transversely adjacent are both in left-right staggered distribution, controlling the fan 8 to start to operate, expanding the blowing area of the wind generated by the fan 8 through the diffusion tube 42 and the diffusion sheet 43, filtering dust in the air through the filter screen 45 when the wind passes through the filter plate 46, removing the insertion connection between the frame body 44 and the convex slot 41, cleaning the filter screen 45 by using an external cleaning device, and ensuring effective dust filtration on the wind blown out by the fan 8;

wherein: still include control switch group 6, control switch group 6 sets up in the upper surface of mounting panel 1, and external power source is connected to control switch group 6's input electricity, and the equal electricity connection of control switch group 6's of the input of fan 8 and energy-saving appliance 18 output, fan 8 are used for providing wind-force, reduce the temperature around the electrical equipment, and energy-saving appliance 18 is used for collecting the electric energy of loss and uses external load.

Wherein: support body 44's upper and lower surface all is equipped with handle 10, support body 44's bottom right side is equipped with guide way 2, energy-saving box 7's bottom inner wall is equipped with even longitudinal distribution's guide bar 3, guide bar 3 all pegs graft with guide way 2, utilize handle 10 to peg graft support body 44 and convex slot 41 cancellation, and peg graft guide bar 3 and guide way 2 cancellation, the direction is to support body 44's installation and dismantlement direction, support simultaneously and stabilize support body 44 in the inside position of energy-saving box 7, and safety and stability is improved.

Wherein: the upper surface of energy-saving box 7 is equipped with bilateral symmetry's support column 11, the top of support column 11 all with dash board 12's bottom fixed connection, dash board 12 avoids energy-saving box 7 rainwater to pass through the inside of 14 infiltration of outlet duct to energy-saving box 7 when outdoor operations, and support column 11 plays the effect of location support.

When in use: the mounting plate 1 is fixedly mounted on a proper horizontal working ground by using external bolts through mounting holes symmetrically distributed at four corners of the upper surface of the mounting plate 1, external electrical equipment is positioned and connected with a wire through a placing plate 19, after the wire connection is finished, a box door 17 is closed, an inserting column 15 is inserted into a corresponding inserting plate 16 towards the rear side at the moment, the inserting column 15 is inserted into a corresponding positioning pipe 5 until the front end of the inserting column 15 is completely attached to the front side surface of a corresponding magnet 9, the sealing ring on the front side surface of the box door 17 enhances the sealing property of the energy-saving box 7, at the moment, an energy saver 18 is controlled to start working through a control switch group 6, the energy saver 18 automatically absorbs reverse potential energy of the external electrical equipment and continuously feeds back the energy to an external load, the purpose of saving electricity is achieved, and at the moment, when the temperature in the energy-saving box 7 rises under the continuous working of the electrical equipment, the fan 8 is controlled to start to operate through the control switch group 6, the wind generated by the fan 8 passes through the diffusion tube 42 and the diffusion sheet 43 to realize the expansion of the blowing area, when the wind passes through the filter plate 46, the dust in the air is filtered through the filter screen 45, the influence of large-particle dust entering the energy-saving box 7 on the operation of electrical equipment is avoided, at the moment, the wind uniformly blows to the inside of the energy-saving box 7 and uniformly cools the electrical equipment through the through hole in the middle of the placing plate 19, after the redundant wind passes through the through hole in the middle of the sliding plate 20 at the bottom end, the two sliding plates 20 start to simultaneously slide upwards in the limiting groove in the air outlet pipe 14, the hot wind is discharged outwards through the air outlet hole 13, when the temperature in the energy-saving box 7 reaches a proper range, the fan 8 is controlled to stop running, at the moment, under the action of wind force of the sliding plate 20, the self weight slides downwards to the bottommost end in the limiting groove in the air outlet pipe 14, avoid external dust to enter into the inside to energy-saving box 7 through venthole 13, guarantee that electrical equipment's operational environment is clean and tidy, dash board 12 avoids energy-saving box 7 rainwater to pass through the inside of outlet duct 14 infiltration to energy-saving box 7 when outdoor operations, avoid the rainwater to influence electrical equipment's work, when needs clear up the dust of energy-saving box 7 inside, open chamber door 17, utilize handle 10 to cancel grafting with support body 44 and convex slot 41, and cancel grafting guide bar 3 and guide way 2, utilize outside cleaning device to clear up filter screen 45, guarantee to carry out effectual dust filtration to the wind that the fan 8 blew off, guarantee that electrical equipment carries out work under suitable environment, avoid the high temperature to produce the influence to electrical equipment's work, save the electric energy.

It is to be noted that the fan 8 disclosed in the embodiment may be a fan with model FB-1 of full wind environmental protection science and technology limited, the economizer 18 may be an economizer with model ESD-108 of shenzhen, sanhe pioneer science and technology limited, and the control switch group 6 controls the fan 8 and the economizer 18 to work by a method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. An electronic engineering distributed power saving device, characterized in that: comprises a mounting plate (1) and a cooling energy-saving mechanism (4);

mounting plate (1): the energy-saving box (7) is arranged on the upper surface of the energy-saving box (7), the front side surface of the energy-saving box (7) is of an open structure, the right end of the front side surface of the energy-saving box (7) is hinged with the left side surface of a box door (17) through a hinge, the box door (17) corresponds to the open position of the front side surface of the energy-saving box (7), inserting columns (15) are inserted into the inserting columns (16), positioning pipes (5) are uniformly distributed on the left side surface of the energy-saving box (7), the positioning pipes (5) correspond to the inserting plates (16), magnets (9) are arranged on the inner wall of the rear side of each positioning pipe (5), a fan (8) is arranged on the left side surface of the energy-saving box (7), an energy saver (18) is arranged at the bottom end inside the energy-saving box (7), placing plates (19) are uniformly distributed on the inside of the energy-saving box (7), and an air outlet pipe (14) is arranged at an air outlet on the upper surface of the energy-saving box (7), limiting grooves which are symmetrically distributed in the left and right are formed in the air outlet pipe (14), sliding plates (20) which are symmetrically distributed in the up and down direction are connected in the limiting grooves in a sliding mode, through holes which are uniformly distributed are formed in the middle of the sliding plate (20) at the bottom end, the opposite inner side faces of the two sliding plates (20) are fixedly connected with the upper end and the lower end of the fixing column respectively, and air outlet holes (13) which are uniformly distributed are formed in the outer arc face of the air outlet pipe (14);

cooling and energy saving mechanism (4): the air outlet of the fan (8) is connected with the air inlet on the left side surface of the cooling and energy-saving mechanism (4);

wherein: still include control switch group (6), control switch group (6) set up in the upper surface of mounting panel (1), and external power source is connected to the input electricity of control switch group (6), and the output of control switch group (6) is all connected electrically to the input of fan (8) and energy-saving appliance (18).

2. The distributed power saving device in electronic engineering according to claim 1, characterized in that: the cooling energy-saving mechanism (4) comprises a convex slot (41) and a frame body (44), the convex slot (41) is arranged on the inner wall of the left side of the energy-saving box (7) in an up-and-down symmetrical mode, and the convex slot (41) is all inserted into a convex block on the left side face of the frame body (44).

3. The distributed power saving device in electronic engineering according to claim 2, characterized in that: cooling energy-saving mechanism (4) still include diffusion tube (42), diffusion piece (43), filter screen (45) and filter (46), diffusion tube (42) set up in the left side inner wall of energy-conserving case (7), the air outlet of fan (8) passes through the through-hole of energy-conserving case (7) left surface and links to each other with the air intake of diffusion tube (42), diffusion tube (42) are located the inside of support body (44), the inside of diffusion tube (42) is equipped with diffusion piece (43), the inside right side of support body (44) is equipped with even transverse distribution's filter (46), the inside of filter (46) all is equipped with even longitudinal distribution's filter screen (45), dislocation distribution about two horizontal adjacent filter screens (45) are all.

4. The distributed power saving device in electronic engineering according to claim 2, characterized in that: the upper surface and the lower surface of the frame body (44) are respectively provided with a handle (10), the right side of the bottom end of the frame body (44) is provided with a guide groove (2), the inner wall of the bottom end of the energy-saving box (7) is provided with guide rods (3) which are evenly and longitudinally distributed, and the guide rods (3) are all inserted into the guide grooves (2).

5. The distributed power saving device in electronic engineering according to claim 1, characterized in that: the upper surface of energy-saving box (7) is equipped with support column (11) that bilateral symmetry distributes, and the top of support column (11) all is connected with the bottom fixed connection of dash board (12).

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