CN214800190U

CN214800190U - Mounting structure of high-voltage power supply

Info

Publication number: CN214800190U
Application number: CN202120766297.8U
Authority: CN
Inventors: 尹霞
Original assignee: Anshengtong Tianjin High Voltage Power Technology Co ltd
Current assignee: Anshengtong Tianjin High Voltage Power Technology Co ltd
Priority date: 2021-04-15
Filing date: 2021-04-15
Publication date: 2021-11-19
Anticipated expiration: 2031-04-15

Abstract

The utility model discloses a high voltage power supply's mounting structure, including mounting panel, casing and lid, rotate through the hinge between casing and the lid and be connected, be equipped with closing mechanism between casing and the lid, be connected through two installation mechanism between casing and the mounting panel, be equipped with buffer gear in the casing, the bottom of casing is run through and is equipped with a plurality of ventilation mechanism, closing mechanism includes the first L template of fixed connection on the lid lateral wall, the lateral wall fixedly connected with second L template of casing. The utility model has the advantages of reasonable design, not only can play buffering damping effect to high voltage power supply components and parts, reduce its range of rocking in the course of the work, and can ventilate the heat dissipation to high voltage power supply components and parts to can avoid the moisture in dust or the air to adhere to on high voltage power supply components and parts, ensure high voltage power supply components and parts's life.

Description

Mounting structure of high-voltage power supply

Technical Field

The utility model relates to a high-tension apparatus technical field especially relates to a high voltage power supply's mounting structure.

Background

High voltage power supply, the renaming high voltage generator, generally indicate the power of output voltage more than five kilovolts, at present, high voltage power supply is in the use, high voltage power supply components and parts are installed on the component base plate in the casing usually, high voltage power supply components and parts are at the course of the work, can vibrate, influence its and component base plate connection's stability, and then can influence high voltage power supply components and parts's life, and set up the vent at the casing lateral wall usually and carry out the work of dispelling the heat, make moisture in dust and the air get into in the casing and adhere to the surface at high voltage power supply components and parts easily, corrode high voltage power supply components and parts, influence its life, for this reason we have designed a high voltage power supply's mounting structure and have solved above problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that in the prior art, the high-voltage power supply component can generate vibration during the working process to influence the stability of the connection between the component and the substrate, further affects the service life of the high-voltage power supply components, and usually, the side wall of the shell is provided with the ventilation openings for heat dissipation, so that dust and moisture in the air are easy to enter the shell and adhere to the surface of the high-voltage power supply components, the high-voltage power supply components are corroded, and the service life of the high-voltage power supply components is affected, it not only can play a role in buffering and damping the high-voltage power supply components and reduce the shaking amplitude of the high-voltage power supply components during the working process, but also can ventilate and radiate the high-voltage power supply components and parts, and can avoid the moisture in dust or the air to adhere to high voltage power supply components and parts, ensure high voltage power supply components and parts's life.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a high voltage power supply's mounting structure, includes mounting panel, casing and lid, rotate through the hinge between casing and the lid and be connected, be equipped with closing mechanism between casing and the lid, be connected through two installation mechanism between casing and the mounting panel, be equipped with buffer gear in the casing, the bottom of casing is run through and is equipped with a plurality of ventilation mechanism.

Preferably, the closing mechanism includes the first L template of fixed connection on the lid lateral wall, the lateral wall fixedly connected with second L template of casing, the fixed slot has been seted up to the lateral wall of second L template, sliding connection has the trapezoidal piece that offsets with first L template in the fixed slot, be connected with a plurality of first springs between the inside wall of trapezoidal piece and fixed slot.

Preferably, the mounting mechanism comprises two third L-shaped plates fixedly connected to the bottom of the housing, and the two third L-shaped plates are fixedly connected to the mounting plate through a plurality of bolts.

Preferably, buffer gear includes the component base plate of sliding connection in the casing, run through on the component base plate and seted up a plurality of intercommunication grooves, be connected with a plurality of second springs between the interior bottom of component base plate and casing, the both ends of component base plate all are equipped with the U template, be connected with a plurality of third springs between the lateral wall of U template and component base plate, two montants of the upper end symmetry fixedly connected with of component base plate, be connected with guiding mechanism between the interior bottom of component base plate and casing.

Preferably, guiding mechanism sets up two direction spouts of bottom in the casing including the symmetry, two equal sliding connection has the direction slider that extends to the casing front side in the direction spout, the equal fixedly connected with connecting block in bottom and the upper end of two direction sliders of component base plate, be equipped with two connecting rods rather than two relative connecting blocks between component base plate and two direction sliders and all rotate the connecting rod of being connected.

Preferably, ventilation mechanism is including running through the installing frame of installing in the casing bottom, install the dust screen on the installing frame, be equipped with the drier layer that is located the dust screen below on the installing frame.

Compared with the prior art, the utility model, its beneficial effect does:

1. through buffer gear, guiding mechanism's setting, can play the ascending buffering damping effect of level and vertical side to high voltage power supply components and parts, reduce its range of rocking in the course of the work, ensure its life.

2. Through the setting of third L template, installing frame, dust screen, drier layer, the mounting panel is kept away from to the bottom that can make the casing, is convenient for ventilate the heat dissipation to high voltage power supply components and parts to can avoid the moisture in dust or the air to adhere to on high voltage power supply components and parts, ensure high voltage power supply components and parts's life.

To sum up, the utility model has the advantages of reasonable design, not only can play buffering damping effect to high voltage power supply components and parts, reduce its range of rocking in the course of the work, and can ventilate heat dissipation to high voltage power supply components and parts to can avoid the moisture in dust or the air to adhere to on high voltage power supply components and parts, ensure high voltage power supply components and parts's life.

Drawings

Fig. 1 is a schematic structural diagram of an installation structure of a high voltage power supply according to the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

FIG. 4 is a schematic view showing the connection of the element substrate, the communicating groove, the U-shaped plate and the third spring;

fig. 5 is an external schematic structural diagram of an installation structure of a high voltage power supply according to the present invention.

In the figure: the device comprises a mounting plate 1, a shell 2, a cover 3, a hinge 4, a third L-shaped plate 5, a bolt 6, a first L-shaped plate 7, a second L-shaped plate 8, a fixing groove 9, a trapezoidal block 10, a first spring 11, a component substrate 12, a communication groove 13, a U-shaped plate 14, a third spring 15, a guide sliding groove 16, a guide sliding block 17, a connecting rod 18, a mounting frame 19, a dust screen 20, a drying agent layer 21, a second spring 22 and a vertical rod 23.

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.

Referring to fig. 1-5, a mounting structure of a high voltage power supply comprises a mounting plate 1, a housing 2 and a cover 3, wherein the housing 2 is rotatably connected with the cover 3 through a hinge 4, a closing mechanism is arranged between the housing 2 and the cover 3, the closing mechanism comprises a first L-shaped plate 7 fixedly connected with the side wall of the cover 3, the side wall of the housing 2 is fixedly connected with a second L-shaped plate 8, the side wall of the second L-shaped plate 8 is provided with a fixing groove 9, a trapezoidal block 10 abutting against the first L-shaped plate 7 is slidably connected in the fixing groove 9, a plurality of first springs 11 are connected between the trapezoidal block 10 and the inner side wall of the fixing groove 9, it is noted that the first springs 11 are elastic springs, the trapezoidal block 10 can be pushed out of the fixing groove 9 in a natural state, the upper end of the trapezoidal block 10 is obliquely arranged, when the cover 3 is closed, when the first L-shaped plate 7 abuts against the upper end of the trapezoidal block 10, the first L-shaped plate 7 can push the trapezoidal block 10 into the fixing groove 9, when the cover body 3 abuts against the upper end of the shell 2, the first spring 11 can push the trapezoidal block 10 out of the fixing groove 9 to abut against the upper end of the first L-shaped plate 7, the cover body 3 is fixed, and the cover body 3 abuts against the shell 2 and cannot be opened;

the shell 2 is connected with the mounting plate 1 through two mounting mechanisms, each mounting mechanism comprises two third L-shaped plates 5 fixedly connected to the bottom of the shell 2, the two third L-shaped plates 5 are fixedly connected with the mounting plate 1 through a plurality of bolts 6, and it is noted that the arrangement of the third L-shaped plates 5 enables the shell 2 to be far away from the mounting plate 1, so that heat dissipation work can be conveniently performed through the bottom of the shell 2, and the problem that the service life of high-voltage power supply components is influenced due to overhigh temperature in the working process is avoided;

the shell 2 is internally provided with a buffer mechanism, the buffer mechanism comprises an element substrate 12 which is slidably connected in the shell 2, the element substrate 12 is provided with a plurality of communicating grooves 13 in a penetrating manner, it is noted that high-voltage power components are arranged on the element substrate 12, the communicating grooves 13 are arranged to facilitate the circulation of air above and below the element substrate 12, so that the high-voltage power components can perform heat dissipation work, a plurality of second springs 22 are connected between the element substrate 12 and the inner bottom of the shell 2, both ends of the element substrate 12 are provided with U-shaped plates 14, a plurality of third springs 15 are connected between the U-shaped plates 14 and the side walls of the element substrate 12, it is noted that when the high-voltage power components vibrate in the working process, the second springs 22 can buffer the high-voltage power components in the vertical direction, the shaking amplitude of the high-voltage power components in the vertical direction is reduced, and the third springs 15 can buffer the high-voltage power components in the horizontal direction, the shaking amplitude of the high-voltage power supply component in the horizontal direction is reduced, so that the high-voltage power supply component can be buffered and damped, the service life of the high-voltage power supply component is guaranteed, the two vertical rods 23 are symmetrically and fixedly connected to the upper end of the element substrate 12, it needs to be noted that when the cover body 3 is in a closed state, the upward sliding distance of the element substrate 12 can be limited by the vertical rods 23, when the vertical rods 23 abut against the bottom of the cover body 3, the element substrate 12 cannot continuously slide upwards, and the collision damage phenomenon caused by the abutting of the high-voltage power supply component and the bottom of the cover body 3 can be avoided;

a guide mechanism is connected between the element substrate 12 and the inner bottom of the shell 2, the guide mechanism comprises two guide sliding chutes 16 symmetrically arranged at the inner bottom of the shell 2, guide sliding blocks 17 extending to the front side of the shell 2 are connected in the two guide sliding chutes 16 in a sliding manner, connecting blocks are fixedly connected at the bottom of the element substrate 12 and the upper ends of the two guide sliding blocks 17, two connecting rods 18 which are opposite to the two guide sliding blocks and are rotatably connected are arranged between the element substrate 12 and the two guide sliding blocks 17, it needs to be noted that when the cover body 3 is opened, the two guide sliding blocks 17 are pulled to slide in the guide sliding chutes 16 and approach each other, the connecting rods 18 can rotate and push the element substrate 12 to slide upwards, and the high-voltage power supply components can be conveniently overhauled and maintained;

the bottom of casing 2 is run through and is equipped with a plurality of ventilation mechanism, ventilation mechanism is including running through the installing frame 19 of installing in casing 2 bottom, install dust screen 20 on the installing frame 19, be equipped with the drier layer 21 that is located the dust screen 20 below on the installing frame 19, it needs to notice, ventilation mechanism's setting can be to the inside work of ventilating and radiating that carries out of casing 2, dust screen 20's setting can be avoided in dust winged insect etc. gets into casing 2, the setting of drier layer 21, can carry out the drying to the air that gets into in the casing 2, avoid moisture in the air to adhere to on high voltage power supply components and parts and influence its life.

The utility model discloses its functional principle is explained to following mode of operation of accessible:

in the utility model, when a high-voltage power supply component is required to be installed, the trapezoidal block 10 is pulled to slide into the fixed groove 9 and not to abut against the first L-shaped plate 7 any more, the cover body 3 is opened, the two guide sliders 17 are pulled to slide in the guide sliding grooves 16 and approach each other, the connecting rod 18 can be rotated and the component substrate 12 is pushed to slide upwards, the component substrate 12 is slid to the outer side of the shell body 2, the high-voltage power supply component is installed on the component substrate 12, the guide sliders 17 are loosened, the component substrate 12 slides into the shell body 2 to reset under the action of the second spring 22, the cover body 3 is closed, when the first L-shaped plate 7 abuts against the upper end of the trapezoidal block 10, the first L-shaped plate 7 can push the trapezoidal block 10 into the fixed groove 9, when the cover body 3 abuts against the upper end of the shell body 2, the first spring 11 can push the trapezoidal block 10 outwards from the fixed groove 9, the third L-shaped plate 5 is arranged on the mounting plate 1 through the bolt 6, so that the ventilation mechanism can perform ventilation work, and the problem that the service life of a high-voltage power supply component is influenced by overhigh temperature in the working process is avoided;

when high voltage power supply components and parts vibrate in the course of the work, second spring 22 can play the ascending buffering of vertical side to it, reduces its amplitude of rocking in vertical side, and third spring 15 can play the ascending buffering of horizontal side to it, reduces its amplitude of rocking in the horizontal side, and then can play buffering damping effect to high voltage power supply components and parts, guarantee its life.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a high voltage power supply's mounting structure, includes mounting panel (1), casing (2) and lid (3), its characterized in that, rotate through hinge (4) between casing (2) and lid (3) and be connected, be equipped with closing mechanism between casing (2) and lid (3), be connected through two installation mechanism between casing (2) and mounting panel (1), be equipped with buffer gear in casing (2), the bottom of casing (2) is run through and is equipped with a plurality of ventilation mechanism.

2. The mounting structure of a high-voltage power supply according to claim 1, wherein the closing mechanism comprises a first L-shaped plate (7) fixedly connected to the side wall of the cover body (3), a second L-shaped plate (8) is fixedly connected to the side wall of the shell (2), a fixing groove (9) is formed in the side wall of the second L-shaped plate (8), a trapezoidal block (10) abutting against the first L-shaped plate (7) is slidably connected in the fixing groove (9), and a plurality of first springs (11) are connected between the trapezoidal block (10) and the inner side wall of the fixing groove (9).

3. A mounting structure for a high voltage power supply according to claim 1, wherein said mounting mechanism comprises two third L-shaped plates (5) fixedly attached to the bottom of the housing (2), both of said third L-shaped plates (5) being fixedly attached to the mounting plate (1) by means of a plurality of bolts (6).

4. The mounting structure of a high-voltage power supply according to claim 1, wherein the buffering mechanism comprises an element substrate (12) slidably connected in the housing (2), a plurality of communicating grooves (13) are formed in the element substrate (12) in a penetrating manner, a plurality of second springs (22) are connected between the element substrate (12) and the inner bottom of the housing (2), U-shaped plates (14) are arranged at both ends of the element substrate (12), a plurality of third springs (15) are connected between the U-shaped plates (14) and the side walls of the element substrate (12), two vertical rods (23) are symmetrically and fixedly connected to the upper end of the element substrate (12), and a guiding mechanism is connected between the element substrate (12) and the inner bottom of the housing (2).

5. The mounting structure of a high-voltage power supply according to claim 4, wherein the guiding mechanism comprises two guiding sliding grooves (16) symmetrically arranged at the bottom in the housing (2), two guiding sliding blocks (17) extending to the front side of the housing (2) are slidably connected in the two guiding sliding grooves (16), connecting blocks are fixedly connected to the bottom of the component substrate (12) and the upper ends of the two guiding sliding blocks (17), and two connecting rods (18) rotatably connected with the two opposite connecting blocks are arranged between the component substrate (12) and the two guiding sliding blocks (17).

6. The mounting structure of a high-voltage power supply according to claim 1, wherein the ventilation mechanism comprises a mounting frame (19) mounted at the bottom of the housing (2) in a penetrating manner, a dust screen (20) is mounted on the mounting frame (19), and a desiccant layer (21) located below the dust screen (20) is arranged on the mounting frame (19).