CN219612238U - Electromechanical device protection architecture - Google Patents

Abstract

The utility model relates to the technical field of protection architecture, in particular to an electromechanical equipment protection architecture, which comprises a protection box, wherein a placement frame is arranged in the protection box, two protection components are arranged on the upper side of the placement frame, and a baffle is fixedly arranged on the inner sides of the two protection components; the protection subassembly includes the fixed plate, and the lower extreme both sides of fixed plate are equipped with two first motors, and the output of every first motor passes the fixed plate and is connected with the lead screw, and the screw thread contact is equipped with the movable plate on the circumference outside of two lead screws, has all set firmly a plurality of fixed blocks on fixed plate and the movable plate, is connected between fixed block and the baffle and is equipped with telescopic assembly. According to the utility model, the electromechanical equipment is protected in a first layer through the protective door and the protective box, the placing frame is driven by the two lifting assemblies to adjust the height of the placing frame in the protective box in a vertical movement mode according to the hazard condition, and then the two baffles are respectively driven by the two protective assemblies to move towards the middle to form a triangular structure to be matched with the placing frame to carry out second-layer protection on the electromechanical equipment.

Description

A protection framework for electromechanical equipment

technical field

The utility model relates to the technical field of protection structures, in particular to a protection structure for electromechanical equipment.

Background technique

The electromechanical equipment located in the mine has the danger of falling ore or mine collapse and crushing the electromechanical equipment. It is necessary to set up a protective structure outside the electromechanical equipment to reduce the damage to the electromechanical equipment.

The current protection structure of electromechanical equipment can only provide simple outer barrier protection in the mine, and it is still easy to cause serious damage to the electromechanical equipment in the case of mine collapse.

Utility model content

The purpose of the utility model is to provide a protection framework for electromechanical equipment that can adjust the protection mode according to the degree of harm.

In order to achieve the above purpose, the utility model provides the following technical solutions: a protective structure for electromechanical equipment, including a protective box, the front side of the protective box is rotated with a protective door, and the internal activities of the protective box are provided with a placement frame. The lower side of the placement frame is provided with two lifting assemblies, the upper side of the placement frame is provided with two protective assemblies, and the inner side of the two protective assemblies is fixed with a baffle plate; the protective assembly includes a fixing plate, the Two first motors are arranged on both sides of the lower end of the fixing plate, and the output end of each of the first motors is connected to a screw rod through the fixing plate, and the circumferential outer sides of the two screw rods are threaded to be provided with moving parts. A plurality of fixed blocks are fixed on the side of the fixed plate and the movable plate facing the baffle, and a plurality of telescopic components are connected between the plurality of fixed blocks and the baffle.

Among them, first protect the electromechanical equipment through the protective door and the protective box, and then drive the frame placed in the protective box to adjust the height by moving up and down according to the hazard situation through two lifting components, and then drive the two protective components respectively through the two protective components. The first baffle moves to the middle to form a triangular structure and cooperate with the placement frame to provide a second layer of protection for the electromechanical equipment.

Preferably, a connecting plate is fixed between the fixing plate and the placing frame, and the placing frame is in a U-shaped structure. Wherein, the placing frame has a U-shaped structure so as to be in contact with the two baffles.

Preferably, the upper ends of the two baffles are inclined surface structures, and the upper ends of the two baffles are bonded together.

Preferably, the lifting assembly includes a second motor, the second motor is fixed on the protective box, the output end of the second motor is provided with a double-threaded column, and the circumferential outer threaded contact of the double-threaded column is provided with two a moving block, a plurality of connecting blocks are fixed on the upper side of the two moving blocks, four sliding blocks are arranged on the lower end of the placement frame, and two moving blocks are connected with the two sliding blocks. There is a second telescoping assembly. Wherein, the rotation of the double-threaded column drives the movement of the moving block, so that the second telescopic component shrinks or stretches out to adjust the height of the placement frame.

Preferably, the second telescopic assembly includes a plurality of rotating plates, and a rotating shaft is rotatably connected between the plurality of rotating plates, and the rotating plate and the slider are rotatably connected through a rotating shaft, and the rotating plates and The connecting blocks are rotatably connected by a rotating shaft, and the structure of the telescopic assembly is the same as that of the second telescopic assembly.

Preferably, two helical threads are provided on the outer sides of the two ends of the double-threaded column, and the rotation of the double-threaded column can simultaneously drive two moving blocks to move toward each other or in opposite directions, and each of the moving blocks is protected The inner underside of the box slides.

Preferably, four guide columns are connected between the lower side of the placement frame and the protective box, the lower end of each guide column is fixed inside the protective box, and the upper end of each guide column is on the side of the placement frame. Sliding inside the wall. Wherein, the placing frame is moved up or down smoothly through four guide columns.

Compared with the prior art, the beneficial effects of the utility model are:

1. First protect the mechanical and electrical equipment through the protective door and the protective box, and then drive the frame placed in the protective box to adjust the height according to the hazard situation through the two lifting components, and then drive the two protective components respectively through the two protective components. The first baffle moves to the middle to form a triangular structure and cooperate with the placement frame to provide a second layer of protection for the electromechanical equipment.

2. First, through the rotation of the double-threaded column, the two moving blocks are driven to move in opposite directions, so that the second telescopic component shrinks and cooperates with the two pairs of opposite sliders to slide on the placement frame, so that the placement frame moves downward; then through four The guide column enables the placement frame to move downwards smoothly and reduces the placement space of the electromechanical equipment to prevent damage to the electromechanical equipment caused by mine collapse.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is further explained:

Fig. 1 is a schematic isometric view of the utility model.

Fig. 2 is the isometric structural diagram of the internal structure of the protective box in the utility model.

In the figure, protective box 10, protective door 11, placement frame 12, lifting assembly 13, protective assembly 14, fixed plate 15, first motor 16, moving plate 17, fixed block 18, telescopic assembly 19, baffle plate 20, screw rod 21. Guide post 22, moving block 23, second motor 24, double threaded post 25, connecting block 26, second telescopic assembly 27, rotating plate 28, rotating shaft 29, slide block 30, connecting plate 31.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments. Based on the present invention The embodiments in the utility model, and all other embodiments obtained by persons of ordinary skill in the art without creative efforts, all belong to the scope of protection of the utility model.

In order to facilitate understanding of the utility model, the utility model will be described more comprehensively below with reference to the related ones, and several embodiments of the utility model are provided. However, the utility model can be realized in many different forms, and is not limited to what is described herein. The described embodiments, on the contrary, are provided for the purpose of making the disclosure of the utility model more thorough and comprehensive.

It should be noted that when an element is said to be "fixed on" another element, it may be directly on the other element or there may be an intervening element, and when an element is said to be "connected" to another element, it may The terms "vertical", "horizontal", "left", "right" and similar expressions are used herein for the purpose of illustration only.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by those skilled in the technical field of the present invention, and the terms used in the description of the present invention herein are only to describe specific The purpose of the embodiment is not intended to limit the present utility model, and the term "and/or" used herein includes any and all combinations of one or more related listed items.

Please refer to Figures 1-2, the utility model provides a technical solution: a protective structure for electromechanical equipment, including a protective box 10, the front side of the protective box 10 is rotated with a protective door 11, and the internal activities of the protective box 10 are provided with Frame 12, the lower side of placing frame 12 is provided with two lifting assemblies 13, and the upper side of placing frame 12 is provided with two protective assemblies 14, and the inner side of two protective assemblies 14 is fixed with baffle plate 20; plate 15, two first motors 16 are arranged on both sides of the lower end of the fixed plate 15, and the output end of each first motor 16 passes through the fixed plate 15 and is connected with a screw mandrel 21, and the circumferential outer sides of the two screw mandrels 21 are threaded A moving plate 17 is provided in contact, and a plurality of fixed blocks 18 are fixed on the side of the fixed plate 15 and the moving plate 17 facing the baffle 20, and a plurality of telescopic components 19 are connected between the plurality of fixed blocks 18 and the baffle 20 . A connecting plate 31 is fixedly connected between the fixing plate 15 and the placing frame 12, and the placing frame 12 has a U-shaped structure. The upper ends of the two baffles 20 are inclined surface structures, and the upper ends of the two baffles 20 are bonded together.

When in use, the staff places the electromechanical equipment in the middle of the placement frame 12, the two protective components 14 are activated, and the four first motors 16 are activated to respectively drive the four screw rods 21 to rotate in the same direction, and the four screw rods 21 rotate through the screw threads. Drive the two moving plates 17 to move down steadily respectively, and the moving down of the two moving plates 17 drives the multiple fixed blocks 18 on the upper side to move downward, and the multiple fixed blocks 18 on the lower side are fixed to cooperate with the multiple fixed blocks on the upper side. The fixed block 18 moves downward to make the six telescopic components 19 protrude and respectively drive the two baffles 20 to move to the middle, so that the upper ends of the two baffles 20 fit together to form a triangular structure to protect the upper part of the electromechanical equipment, and then pass Place the frame 12 to protect the surroundings of the electromechanical equipment.

As a further embodiment, referring to Fig. 1-2, the lifting assembly 13 includes a second motor 24, the second motor 24 is fixed on the protective box 10, the output end of the second motor 24 is provided with a double threaded post 25, and the double threaded post 25 Two moving blocks 23 are provided in the circumferential outer thread contact of the two moving blocks 23, and a plurality of connecting blocks 26 are fixed on the upper side of the two moving blocks 23, and four slide blocks 30 are provided for sliding on the lower end of the placing frame 12, and the two moving blocks 23 A second telescopic assembly 27 is connected between the two sliders 30 . The second telescoping assembly 27 includes a plurality of rotating plates 28, a plurality of rotating plates 28 are rotatably connected to be provided with a rotating shaft 29, and the rotating plates 28 and the slider 30 are rotatably connected by the rotating shaft 29, and the rotating plates 28 and the connecting block 26 The telescopic assembly 19 and the second telescopic assembly 27 have the same structure. The circumferential outer sides of the two ends of the double-threaded column 25 are provided with two helical threads. The rotation of the double-threaded column 25 can simultaneously drive the two moving blocks 23 to move toward each other or move in the opposite direction. Slide sideways. Place the lower side of the frame 12 and the protective box 10 to be connected with four guide columns 22, the lower end of each guide column 22 is fixed inside the protective box 10, and the upper end of each guide column 22 is placed in the frame 12 side walls slide.

When this embodiment is in use, in the initial state, the placement frame 12 is raised by the two lifting components 13 to prevent the electromechanical equipment from being damaged by moisture.

The two second motors 24 start to drive the two double-threaded columns 25 to rotate respectively, and the rotation of the two double-threaded columns 25 respectively drives the two pairs of relative two moving blocks 23 to move oppositely, and the two pairs of relative two moving blocks 23 move oppositely respectively. The two second telescopic assemblies 27 are driven to shrink, and the two second telescopic assemblies 27 are shrunk to cooperate with two pairs of relative two sliders 30 to slide on the placement frame 12, and then through the four guide columns 22, the placement frame 12 is smoothly downward Move to reduce the height and reduce the placement space of electromechanical equipment to prevent damage to electromechanical equipment caused by mine collapse.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes and modifications can be made to these embodiments without departing from the principle and spirit of the present invention , replacement and modification, the scope of the utility model is limited by the appended claims and their equivalents.

Claims (7)

1. A protective framework for electromechanical equipment, comprising a protective box (10), is characterized in that: the front side of the protective box (10) rotates and is provided with a protective door (11), and the internal activities of the protective box (10) are provided with There is a placement frame (12), the underside of the placement frame (12) is provided with two lifting assemblies (13), the upper side of the placement frame (12) is provided with two protective assemblies (14), and the two The inner side of the protective assembly (14) is fixed with a baffle (20); the protective assembly (14) includes a fixed plate (15), and two first motors ( 16), the output end of each of the first motors (16) passes through the fixed plate (15) and is connected with a screw mandrel (21), and the circumferential outer sides of the two screw mandrels (21) are in threaded contact with a movable Plate (17), described fixed plate (15) and mobile plate (17) are all fixedly provided with a plurality of fixed blocks (18) to the baffle plate (20) side, a plurality of fixed blocks (18) and baffle plate ( 20) are connected with a plurality of telescopic assemblies (19). 2. A kind of electromechanical equipment protective framework according to claim 1, is characterized in that: between described fixed plate (15) and placing frame (12), be connected and fixedly be provided with connecting plate (31), described placing frame ( 12) U-shaped structure. 3. A protective structure for electromechanical equipment according to claim 1, characterized in that: the upper ends of the two baffles (20) are inclined surface structures, and the upper ends of the two baffles (20) are bonded together. 4. A protective structure for electromechanical equipment according to claim 1, characterized in that: the lifting assembly (13) includes a second motor (24), and the second motor (24) is fixed on the protective box (10) , the output end of the second motor (24) is provided with a double-threaded column (25), and the circumferential outer thread contact of the double-threaded column (25) is provided with two moving blocks (23), and the two moving blocks (23) are arranged. The upper side of the block (23) is fixed with a plurality of connecting blocks (26), and the lower end of the placement frame (12) slides to be provided with four slide blocks (30), and two described moving blocks (23) and two A second telescopic assembly (27) is connected between the sliders (30). 5. A protective structure for electromechanical equipment according to claim 4, characterized in that: the second telescopic assembly (27) includes a plurality of rotating plates (28), and the rotating plates (28) rotate between The connection is provided with a rotating shaft (29), the rotating plate (28) is connected with the slider (30) through the rotating shaft (29), and the rotating plate (28) and the connecting block (26) are connected by rotating The shaft (29) is rotatably connected, and the structure of the telescopic assembly (19) is the same as that of the second telescopic assembly (27). 6. A protective framework for electromechanical equipment according to claim 5, characterized in that: two helical threads are provided on the outer sides of the two ends of the double-threaded column (25), and the double-threaded column (25) The rotation can simultaneously drive the two moving blocks (23) to move toward each other or in opposite directions, and each of the moving blocks (23) slides on the inner lower side of the protective box (10). 7. A protective framework for electromechanical equipment according to claim 1, characterized in that four guide columns (22) are connected between the lower side of the placement frame (12) and the protective box (10), each The lower ends of each of the guide posts (22) are fixed inside the protective box (10), and the upper ends of each of the guide posts (22) slide in the side walls of the placement frame (12).