Shockproof industrial equipment power outlet

Abstract

This utility model relates to the field of power socket technology, specifically a shockproof industrial equipment power socket. It includes a power socket body, with sockets evenly spaced on the upper end of the body, and protective fastening covers fixedly fixed to the upper end of the body around the sockets. A positioning base plate is provided at the bottom of the power socket body, with vibration-damping seats evenly spaced on the upper part of the positioning base plate. An elastic damping plate is provided above the vibration-damping seats, and fixing plates are fixed to the upper and lower ends of the elastic damping plate, respectively. The fixing plates are screwed to the vibration-damping seats and the power socket body. Elastic connecting pieces are symmetrically connected to both sides of the power socket body and the positioning base plate. This shockproof industrial equipment power socket can be fixed to the positioning base plate through a multi-stage vibration-damping structure, and the longitudinally movable elastic connecting pieces on both sides of the positioning base plate and the power socket effectively control the amplitude of vibration, thereby ensuring the shockproof effect.

Description

Technical Field

[0001] This utility model relates to the field of power socket technology, specifically to a shockproof power socket for industrial equipment. Background Technology

[0002] Industrial equipment power sockets are specifically designed to meet the high demands of industrial environments, which typically include harsh conditions such as mechanical shock, vibration, dust, and moisture, requiring greater durability, safety, and reliability.

[0003] When using existing industrial equipment power sockets, mechanical vibration may cause electrical connections to loosen or break, thereby affecting the normal operation of the equipment and even causing safety hazards. Therefore, in order to ensure that the power sockets can still work stably in a vibrating environment, vibration-proofing treatment is required. Currently, in addition to strengthening the structural strength, industrial equipment power sockets also need to be treated with elastic materials for vibration reduction. However, the degree of vibration reduction cannot be effectively controlled, which easily leads to problems such as large vibration amplitude and poor vibration reduction effect. Utility Model Content

[0004] The purpose of this utility model is to provide a shockproof power socket for industrial equipment, in order to solve the problem mentioned in the background art that current industrial equipment power sockets on the market, in addition to strengthening the structural strength, also need to be treated with elastic materials for shock absorption. However, the degree of shock absorption cannot be effectively controlled, which easily leads to large vibration amplitude and poor shock absorption effect.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a shockproof industrial equipment power socket, comprising a power socket body, wherein plug sockets are evenly spaced on the upper end of the power socket body, and protective fastening covers covering the plug sockets are fixedly fixed at intervals on the upper end of the power socket body; a positioning base plate is provided at the bottom of the power socket body, and vibration isolation seats are evenly spaced on the upper end of the positioning base plate, and an elastic damping plate is provided above the vibration isolation seats; fixing plates are respectively fixed at the upper and lower ends of the elastic damping plate, and the fixing plates are screwed to the vibration isolation seats and the power socket body; elastic connecting pieces are symmetrically connected to both sides of the power socket body and the positioning base plate, and the elastic connecting pieces are bent structures.

[0006] Preferably, the power socket body is also fixed with a card holder by a welding interval on the side, and the card holder is positioned corresponding to the plug socket, and the side of the card holder is provided with a second wire-holding groove with an arc structure.

[0007] Preferably, the positioning base plate is provided with fixing holes evenly spaced apart, and the bottom of the positioning base plate is also provided with a gasket.

[0008] Preferably, the bottom of the protective fastening cover is provided with a fixing seat that is fused and fixed to the power socket body, and a hinge seat is fixed on one side between the fixing seat and the protective fastening cover.

[0009] Preferably, the protective fastening cover has a first wire-locking groove on its side, and the first wire-locking groove and the hinge seat are located on opposite sides.

[0010] Preferably, the protective fastening cover is provided with a plug fastening plate, and the plug fastening plate corresponds to the position of the plug socket.

[0011] Preferably, the upper end of the protective fastening cover is engaged with a threaded sleeve, and a threaded post is passed through the threaded sleeve by a threaded structure, and the lower part of the threaded post is movably connected to the inside of the plug fastening plate.

[0012] Compared with existing technologies, the beneficial effects of this utility model are as follows: This shockproof industrial equipment power socket can be fixed to the positioning base plate through a multi-stage shock absorption structure, and elastic connecting pieces that can move longitudinally are provided on both sides of the positioning base plate and the power socket, effectively controlling the amplitude of vibration and thus ensuring the shockproof effect. The shockproof industrial equipment power socket has a protective fastening cover above the plug socket for protection, and an adjustable plug fastening plate is installed inside the protective fastening cover, which can fix the plug in a secure position, effectively reducing the impact of vibration on the plug on the power socket. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of a shockproof industrial equipment power socket according to the present invention;

[0014] Figure 2 This utility model relates to a shockproof power socket for industrial equipment. Figure 1 Enlarged structural diagram at point A in the middle;

[0015] Figure 3 This is a top view of a shockproof industrial equipment power socket according to the present invention.

[0016] Figure 4 This is a schematic diagram of the connection structure between the positioning base plate and the elastic connecting piece of a shockproof industrial equipment power socket according to this utility model.

[0017] In the diagram: 1. Power socket body; 101. Plug socket; 2. Positioning base plate; 201. Fixing plate; 202. Elastic shock-absorbing plate; 203. Vibration isolation seat; 204. Gasket; 205. Fixing hole; 3. Elastic connecting piece; 4. Protective fastening cover; 401. Plug fastening plate; 402. Fixing seat; 403. Hinge seat; 404. Threaded post; 405. Threaded sleeve; 406. First wire clamping groove; 5. Clip seat; 501. Second wire clamping groove. Detailed Implementation

[0018] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0019] Please see Figure 1-4This utility model provides a technical solution: a shockproof industrial equipment power socket, including a power socket body 1. Plugs 101 are evenly spaced on the upper end of the power socket body 1, and protective fastening covers 4 are fixedly fixed to the upper end of the power socket body 1, covering the plugs 101. A retaining plate 5 is also fixed to the side of the power socket body 1 by welding, and the retaining plate 5 corresponds to the position of the plugs 101. The retaining plate 5 has an arc-shaped second cable-holding groove 501 on its side. This structure allows the plug connected to the power socket body 1 to be positioned and secured through the second cable-holding groove 501, ensuring the cable on the outer side is stable and reducing the impact of vibration on cable positioning. A positioning base plate 2 is provided at the bottom of the power socket body 1. 2. Vibration isolation seats 203 are evenly spaced at the upper end, and elastic damping plates 202 are provided above the vibration isolation seats 203. The bottom of the protective fastening cover 4 is provided with a fixing seat 402 that is fused and fixed to the power socket body 1. A hinge seat 403 is fixed on one side between the fixing seat 402 and the protective fastening cover 4. This structure allows the protective fastening cover 4 to be flipped open and closed by the hinge seat 403 under the positioning of the fixing seat 402, so that the plug 101 can be protected by the protective fastening cover 4. A first wire-holding groove 406 is provided on the side of the protective fastening cover 4, and the first wire-holding groove 406 and the hinge seat 403 are on opposite sides. This structure allows the cable to pass through the first wire-holding groove 406, so that the plug is located inside the protective fastening cover 4. The upper and lower ends of the elastic damping plate 202 are respectively fixed. A fixed plate 201 is provided, and the fixed plate 201 is screwed to the vibration isolation seat 203 and the power socket body 1 respectively. A positioning base plate 2 has evenly spaced fixing holes 205, and a gasket 204 is provided at the bottom of the positioning base plate 2. This structure allows the positioning base plate 2 to be shock-absorbing through the bottom of the gasket 204, reducing the vibration frequency transmitted to the positioning base plate 2. Simultaneously, the positioning base plate 2 is positioned and stabilized through the fixing holes 205, ensuring that the power socket body 1 has sufficient structural strength. Elastic connecting pieces 3 are symmetrically connected to both sides of the power socket body 1 and the positioning base plate 2. The elastic connecting pieces 3 have a bent structure, allowing for relative connection between the power socket body 1 and the positioning base plate 2, thus ensuring the connection between the power socket body 1 and the positioning base plate 2. Vertical vibration damping is only possible, limiting the amplitude of vibration and ensuring the stability of the power socket body 1. A plug fastening plate 401 is installed inside the protective fastening cover 4, and the plug fastening plate 401 corresponds to the position of the plug socket 101. This structure can secure the plug through the plug fastening plate 401, preventing it from loosening. The plug fastening plate 401 can be made of a thermally conductive material to dissipate heat from the plug. A threaded sleeve 405 is snapped into the upper end of the protective fastening cover 4, and a threaded post 404 passes through the threaded sleeve 405 via a threaded structure. The lower part of the threaded post 404 is movably connected to the interior of the plug fastening plate 401. The lower part of the threaded post 404 is connected to the interior of the plug fastening plate 401 via a bearing and bearing seat.This structure allows the threaded post 404 to rotate under the positioning of the threaded sleeve 405, thereby causing the threaded post 404 to rotate and rise, which in turn allows the plug fastening plate 401 to rise and fall to different degrees, ensuring that the plug fastening plate 401 securely holds plugs of different sizes.

[0020] Working principle: When using this shockproof industrial equipment power socket, firstly, the positioning base plate 2 is used to securely install the power socket body 1 through the fixing holes 205. Then, the protective fastening cover 4 is rotated open relative to the fixing base 402 via the hinge seat 403. The plug is then inserted into the plug socket 101, and the protective fastening cover 4 is replaced. The plug cable is secured in the first cable clamping groove 406, and simultaneously, the cable is secured to the clamping seat 5 via the second cable clamping groove 501 for further stability. Then, the threaded post 404 is rotated, causing the threaded post 404 to engage with the threaded sleeve. The positioning and rotation of 405 causes the plug fastening plate 401 to press the plug, ensuring the plug's stability and reducing the impact of vibration on the plug's fastness. Vibration in the working environment is first reduced by the pad 204. The power socket body 1 and the positioning base plate 2 are then subjected to shock absorption through a multi-level shock absorption structure consisting of the vibration isolation seat 203, the elastic shock absorption plate 202, and the elastic connecting piece 3. The fixing plate 201 is used for rigid fixation of the elastic shock absorption plate 202 to ensure uniform force transmission, thereby completing a series of tasks.

[0021] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A shockproof power socket for industrial equipment, comprising a power socket body (1), characterized in that: The power socket body (1) is equipped with sockets (101) evenly spaced on the upper end, and protective fastening covers (4) covering the sockets (101) are fixed at intervals on the upper end of the power socket body (1). The power socket body (1) is provided with a positioning base plate (2) at the bottom, and vibration isolation seats (203) are evenly spaced on the upper end of the positioning base plate (2). An elastic damping plate (202) is provided above the vibration isolation seat (203). The upper and lower ends of the elastic damping plate (202) are respectively fixed with fixing plates (201), and the fixing plates (201) are screwed to the vibration isolation seat (203) and the power socket body (1). Elastic connecting pieces (3) are also symmetrically connected to both sides of the power socket body (1) and the positioning base plate (2), and the elastic connecting pieces (3) are bent structures.

2. The shockproof industrial equipment power socket according to claim 1, characterized in that: The power socket body (1) is also fixed with a card holder (5) by a welding interval on the side, and the card holder (5) is corresponding to the position of the plug-in socket (101), and the side of the card holder (5) is provided with a second wire slot (501) with an arc structure.

3. The shockproof industrial equipment power socket according to claim 1, characterized in that: The positioning base plate (2) is provided with evenly spaced fixing holes (205), and the bottom of the positioning base plate (2) is also provided with a gasket (204).

4. The shockproof industrial equipment power socket according to claim 1, characterized in that: The bottom of the protective fastening cover (4) is provided with a fixing seat (402) that is welded and fixed to the power socket body (1), and a hinge seat (403) is fixed on one side between the fixing seat (402) and the protective fastening cover (4).

5. A shockproof industrial equipment power socket according to claim 4, characterized in that: The protective fastening cover (4) has a first wire-locking groove (406) on its side, and the first wire-locking groove (406) and the hinge seat (403) are on opposite sides.

6. The shockproof industrial equipment power socket according to claim 1, characterized in that: The protective fastening cover (4) is provided with a plug fastening plate (401), and the plug fastening plate (401) is positioned corresponding to the plug socket (101).

7. A shockproof industrial equipment power socket according to claim 6, characterized in that: The upper end of the protective fastening cover (4) is fastened to the inherent threaded sleeve (405), and a threaded post (404) is passed through the threaded sleeve (405) through the threaded structure. The threaded post (404) is movably connected to the inside of the plug fastening plate (401).

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