CN107750108B - Novel chassis shell special for high-voltage power supply and assembling method - Google Patents

Abstract

The application relates to a novel chassis shell special for high-voltage power supply and an assembling method. The two shell covers are buckled together through the vertical surfaces of the two shell sides respectively, a protrusion on one shell vertical surface of the shell cover at the lower end is inserted into a groove I on one shell vertical surface of the shell cover at the upper end, a protrusion on the other shell vertical surface of the shell cover at the upper end is inserted into a groove I on the other shell vertical surface of the shell cover at the lower end, a rear panel is embedded into an annular groove II formed in the rear end of the two shell covers, and the rear panel is fixed with the two shell covers through screws; the front panel is fixed at the front ends of the two shell covers through screws. The beneficial effects are that: the shell cover is used as an upper cover and a lower cover of the shell and can be used interchangeably, the two shell covers are buckled together to form the whole shell of the machine case, the structure is simple, the appearance is exquisite, the series of the shell covers are formed, and the length of the shell covers can be freely set and intercepted according to the requirements of customers.

Description

Novel chassis shell special for high-voltage power supply and assembling method

Technical Field

The application relates to a novel high-voltage power supply special chassis shell and an assembling method, which are applied to different fields of medical equipment, environmental protection and dust removal, laser infrared, radar navigation and the like.

Background

The high-voltage power supply cabinet in the market has various types of shells, but the problems of cost consideration and importance degree of the shells are solved, the appearance of the existing industrial power supply product is rough, the product is not attractive, the processing precision is poor, and the production process flow is complex.

Along with the development of science and technology, the requirements of users on product standardization and beauty are higher and higher, and the convenient and fast production demands are increased. Therefore, the appearance of the high-voltage power supply cabinet shell is attractive, the practicability and the simplicity and convenience in production are new demands for development at present.

The old-fashioned power supply case is formed by assembling multiple parts, such as a case body frame, a front plate, a rear plate, a left side plate, a right side plate, a front upright post, a rear upright post, fixed feet and the like, wherein screws are overlapped up and down to fix the case during assembling, and the screw fixing stress points are only at the positions of 2 or 3 screws, so that the appearance of the case is deformed and damaged. In the production process, once a certain part of the box body is damaged and interchangeable parts are not produced, production is stopped, and the production link is influenced.

The old power supply cabinet is mostly painted and colored, and defects (trachoma and peeling) are often generated on uneven local surfaces, so that the old power supply cabinet has the problems of poor life span, even color change and the like.

The production process and the assembly process of the multiple parts are complex, and the multiple parts are required to be operated by multiple persons, so that time and labor are wasted, the cost is high, and the labor force is wasted. The consistency of batch production is poor.

Because the working characteristics of the high-voltage power supply product have very high heat generating capacity, the common treatment mode in the market is to add a cooling fin fan type in the shell for coping, the requirement of the heat dissipation in the shell on air flow is very high, and the utilization rate of a large space is very poor.

Disclosure of Invention

In view of the defects of the shell in the market, the application provides the novel chassis shell special for the high-voltage power supply and the assembling method, wherein the shell cover of the shell is an extruded section, the shell cover can be used as an upper cover and a lower cover in an interchangeable way, the two shell covers can be buckled together to form the whole shell of the chassis, the structure is simple, the appearance is exquisite, the series is formed, and the length of the chassis shell can be freely set and intercepted according to the requirements of customers.

The application adopts the following design scheme to realize the aim: the utility model provides a novel high voltage power supply chassis housing which characterized in that: comprises a shell cover, a front panel and a rear panel;

the shell cover is a U-shaped extrusion profile, the surface of the shell cover is a shell surface, shell vertical surfaces are arranged on two sides of the shell surface, a circular threaded hole site with an opening is arranged at the joint of the shell surface in the shell cover and the shell vertical surfaces on two sides, and a communicated groove II is arranged along the edges of the shell surface in the shell cover and the inner surfaces of the shell vertical surfaces on two sides; the vertical surfaces of the two side shells are symmetrically provided with a plurality of heat dissipation holes, the upper ends of the outer surfaces of the vertical surfaces of the two side shells are respectively and horizontally provided with a plurality of semicircular decorative strips, the upper end surface of the vertical surface of one side shell of the shell cover is provided with a bulge, and the upper end surface of the vertical surface of the other side shell of the shell cover is provided with a groove I;

the front panel is rectangular, a touch screen hole, a reset device hole, a regulator device hole, a power supply switch device hole and four screw holes I are respectively formed in the surface of the front panel, and a circle of groove III is formed along the edge of the back surface of the front panel;

the rear panel is rectangular, and a power supply socket hole, a signal serial port device hole, a high-voltage output end position hole and four screw holes II are respectively formed in the surface of the rear panel;

the two shell covers are buckled together through the shell vertical surfaces at two sides respectively, a protrusion on one shell vertical surface of one shell side of the shell at the lower end is inserted into a groove I on the shell vertical surface at one shell side of the shell at the upper end, a protrusion on the shell vertical surface at the other shell side of the shell at the upper end is inserted into a groove I on the shell vertical surface at the other shell side of the shell at the lower end, a rear panel is embedded in an annular groove II formed in the rear end of the two shell covers, and four screws respectively pass through four screw holes II of the rear panel and are screwed together with four screw hole sites on the two shell covers;

the front panel is buckled on the front ends of the two shell covers through a circle of grooves III, and four screws respectively penetrate through four screw holes I of the front panel and are screwed with four threaded hole sites on the two shell covers.

The novel assembling method of the high-voltage power supply chassis shell is characterized by comprising the following steps of:

selecting two shell covers as a shell cover at the upper end and a shell cover at the lower end for standby;

the shell cover at the lower end is horizontally placed on a desktop, the shell vertical surfaces at the two sides of the shell cover face upwards, and the lower end of the rear panel is inserted into the shell vertical surfaces at the two sides and the groove II at the rear end of the shell surface of the shell cover;

the shell vertical surfaces on two sides of the shell at the upper end are buckled on the shell vertical surfaces on two sides of the shell at the lower end and the rear panel, the upper end of the rear panel is inserted into the shell vertical surfaces on two sides of the shell at the upper end and the groove II at the rear end of the shell surface of the shell, one bulge of the shell vertical surface on one side of the shell at the lower end is inserted into one groove I of the shell vertical surface on one side of the shell at the upper end, and one bulge of the shell vertical surface on the other side of the shell at the upper end is inserted into one groove I of the shell vertical surface on the other side of the shell at the lower end;

four screws respectively penetrate through four screw holes II of the rear panel and four screw hole sites on the two shell covers to be screwed together, the rear panel is fastened on the two shell covers, the front panel is fastened on the front ends of the two shell covers, the front ends of the two shell covers are arranged in a circle of groove III of the front panel, and the four screws respectively penetrate through the four screw holes I of the front panel and the screw hole sites on the two shell covers to be screwed together, so that the front panel is fastened on the two shell covers.

The beneficial effects of the application are as follows: the novel special chassis shell for the high-voltage power supply is formed by extrusion molding of a die, the profile can be cut and taken at will according to the requirements of a user in terms of depth to form a shell cover, and the shell cover can be used interchangeably as an upper cover and a lower cover of the shell.

The shell is formed by stretching 6061T6 aluminum-magnesium-silicon alloy, and the high-quality characteristic of the shell has the characteristics of good heat dissipation, light weight, high strength, high hardness and corrosion resistance, and the processing price is moderate, and is superior to the common 6063 aluminum alloy material in the market in the aspects of plasticity, convenience in processing, stability and the like.

The two shell covers fit the position and are mutually meshed with each other to form the whole shell of the machine case, and the machine case is fixed with common upper and lower overlapping screws on the market, so that the machine case is simpler, more convenient, more firm and more attractive, the groove is protruded to enable all contact surfaces of the whole body to be meshed with each other to be stressed, the matching surfaces are smooth, a plurality of semicircular decorative strips are processed on the outer sides of the butt joint positions of the two shell covers, butt joint gaps can be blanked, and the machine case is attractive and more integrated.

The application adopts the shell to dissipate heat, because the shell adopts the aluminum profile, aluminum has extremely strong heat dissipation characteristic and light weight, compared with the prior art, the heat dissipation of the whole machine is realized by adding the heat dissipation fins and the fan, the superiority is stronger, the cost is saved, and the space utilization rate in the shell is increased.

The thickness of the shell surface is as thin as 4mm+, and the thickness of the shell surface is increased along with the increase of the shell volume required by series products, so that the shell strength of the products is met, and the heat dissipation requirement of high-power products is met.

The area size of the front panel is larger than the splicing sectional area size of the shell by 2mm, a circle of groove III is formed along the edge of the back surface of the front panel, the front panel is externally buckled and fastened on the shell, the front 2mm depth is embedded into the case, the front embedded part supports the upper case cover and the lower case cover which are mutually buckled into a circular shape, the strength is improved, and meanwhile, the visual integrity of the product is also improved.

The area size of the rear panel is smaller than 2mm of the splicing sectional area of the shell, the rear panel is embedded into the groove II of the shell, the supporting effect is achieved in the groove II, the integral strength is enhanced, and compared with the market panel, the mode of external attaching screws is superior to the market product in the integral strength.

Electronic products in the market are commonly subjected to surface treatment by an electrostatic spraying mode, but the effect is generally very easy to be influenced by time. The application can adopt wiredrawing and black oxidation surface treatment to highlight high-end gas quality, has uniform overall coloring thickness and good consistency of color, is thinner than the traditional spray coating, and can not obstruct the heat dissipation effect, and the surface wiredrawing effect has the masking property on the surface scratch effect, and is more convenient and reliable compared with the traditional spray coating which needs scraping, grinding and baking.

In a word, the cap can be used as upper cover and lower cover interchangeably, can have very big saving manufacturing cost by the unrestricted custom section bar length more.

The structural design of the application makes the high-voltage power supply chassis shells of the same type serialized, normalized and highly consistent. Meanwhile, the box body is simple in structure, fewer in parts, more standardized in the production and processing process, easier in standardization process, easier in production efficiency improvement, easier in processing precision improvement, processing cost saving and simple and convenient in finished product assembly.

Drawings

FIG. 1 is a front perspective view of the present application;

FIG. 2 is a rear perspective view of the present application;

FIG. 3 is a cross-sectional view of the present application;

FIG. 4 is an exploded view of the structure of the present application;

FIG. 5 is a front view of the cover I of the present application;

FIG. 6 is a front view of the cover II of the present application;

FIG. 7 is a rear view of the cover of the present application;

FIG. 8 is an enlarged view of FIG. 5A;

FIG. 9 is an enlarged view of FIG. 6B;

FIG. 10 is an enlarged view of FIG. 7C;

FIG. 11 is a rear view of the front panel of the present application;

FIG. 12 is a schematic view of the structure of the rear panel of the present application;

FIG. 13 is a schematic view of the assembly of two covers and a front panel;

fig. 14 is a schematic view of a profile for making a cover.

Detailed Description

As shown in fig. 1 to 14, a novel high-voltage power supply chassis housing includes a housing cover 1, a front panel 2, and a rear panel 3.

The shell cover 1 is a U-shaped extruded section, the surface of the shell cover 1 is a shell surface, shell vertical surfaces 1-1 are arranged on two sides of the shell surface, a circular threaded hole site 1-2 with an opening is arranged at the joint of the shell surface in the shell cover 1 and the shell vertical surfaces 1-1 on two sides, a plurality of heat dissipation holes 1-1-1 are symmetrically formed in the shell vertical surfaces 1-1 on two sides, a plurality of semicircular decorative strips 1-1-2 are respectively and horizontally arranged at the upper ends of the outer surfaces of the shell vertical surfaces 1-1 on two sides, a bulge 1-1-3 is arranged on the upper end surface of the shell vertical surface 1-1 on one side of the shell cover 1, a groove I1-1-4 is formed in the upper end surface of the shell vertical surface 1-1 on the other side of the shell cover 1, and a communicated groove II 1-1-5 is formed along the edges of the inner surfaces of the shell surface in the shell cover 1 and the shell vertical surfaces 1-1 on two sides.

The front panel 2 is rectangular, a touch screen hole 2-1, a reset device hole 2-2, a regulator device hole 2-3, a power supply switch device hole 2-4 and four screw holes I2-5 are respectively arranged on the surface of the front panel 2, and a circle of groove III 2-6 is arranged along the edge of the back surface of the front panel 2.

The rear panel 3 is rectangular, and a power supply socket hole 3-1, a signal serial port device hole 3-2, a high voltage output end position hole 3-3 and four screw holes II 3-4 are respectively arranged on the surface of the rear panel 3.

The two shell covers 1 are buckled together through two shell vertical surfaces 1-1 respectively, one protrusion 1-1-3 on one shell vertical surface 1-1 of the shell cover 1 at the lower end is inserted into one groove I1-1-4 on one shell vertical surface 1-1 of the shell cover 1 at the upper end, one protrusion 1-1-3 on the other shell vertical surface 1-1 of the shell cover 1 at the upper end is inserted into one groove I1-1-4 on the other shell vertical surface 1-1 of the shell cover 1 at the lower end, a rear panel 3 is embedded in an annular groove II 1-1-5 formed in the rear end of the two shell covers 1, and four screws are respectively screwed with four screw hole sites 1-2 on the two shell covers 1 through four screw holes II 3-4 of the rear panel 3;

the front panel 2 is buckled on the front ends of the two shell covers 1 through a circle of grooves III 2-4, and four screws respectively penetrate through four screw holes I2-5 of the front panel 2 and are screwed with four screw thread hole sites 1-2 on the two shell covers 1.

The shell cover (1) is made of 6061T6 aluminum-magnesium-silicon alloy.

The novel high-voltage power supply chassis shell assembling method comprises the following steps:

selecting two shell covers 1 as the shell cover 1 at the upper end and the shell cover 1 at the lower end for standby;

the shell cover 1 at the lower end is horizontally placed on a desktop, shell vertical surfaces 1-1 at two sides of the shell cover 1 face upwards, and the lower end of the rear panel 3 is inserted into the shell vertical surfaces 1-1 at two sides and a groove II 1-1-5 at the rear end of the shell surface of the shell cover 1;

the two side shell vertical surfaces 1-1 of the shell cover 1 at the upper end are buckled on the two side shell vertical surfaces 1-1 and the rear panel 3 of the shell cover 1 at the lower end, the upper end of the rear panel 3 is inserted into the two side shell vertical surfaces 1-1 and the groove II 1-1-5 at the rear end of the shell surface of the shell cover 1, one bulge 1-1-3 of one side shell vertical surface 1-1 of the shell cover 1 at the lower end is inserted into one groove I1-1-4 of one side shell vertical surface 1-1 of the shell cover 1 at the upper end, and one bulge 1-1-3 of the other side shell vertical surface 1-1 of the shell cover 1 at the upper end is inserted into one groove I1-1-4 of the other side shell vertical surface 1-1 of the shell cover 1 at the lower end;

four screws respectively penetrate through four screw holes II 3-4 of the rear panel 3 and are screwed with four threaded hole sites 1-2 on the two shell covers 1, so that the rear panel 3 is fastened on the two shell covers 1;

the front panel 2 is buckled on the front ends of the two shell covers 1, the front ends of the two shell covers 1 are arranged in a circle of grooves III 2-4 of the front panel 2, four screws respectively penetrate through four screw holes I2-5 of the front panel 2 and are screwed with the threaded hole sites 1-2 on the two shell covers 1, and the front panel 2 is fastened on the two shell covers 1.

Claims (3)

1. The utility model provides a novel high voltage power supply chassis housing which characterized in that: comprises a shell cover (1), a front panel (2) and a rear panel (3);

the shell cover (1) is a U-shaped extrusion profile, the surface of the shell cover (1) is a shell surface, shell vertical surfaces (1-1) are arranged on two sides of the shell surface, a circular threaded hole site (1-2) with an opening is arranged at the joint of the shell surface in the shell cover (1) and the shell vertical surfaces (1-1) on two sides, and a communicated groove II (1-1-5) is arranged along the edges of the shell surface in the shell cover (1) and the inner surfaces of the shell vertical surfaces (1-1) on two sides; a plurality of radiating holes (1-1-1) are symmetrically formed in the vertical surfaces (1-1) of the two side shells, a plurality of semicircular decorative strips (1-1-2) are respectively and horizontally arranged at the upper ends of the outer surfaces of the vertical surfaces (1-1) of the two side shells, a bulge (1-1-3) is arranged on the upper end face of the vertical surface (1-1) of one side of the shell cover (1), and a groove I (1-1-4) is arranged on the upper end face of the vertical surface (1-1) of the other side of the shell cover (1);

the front panel (2) is rectangular, a touch screen hole (2-1), a reset device hole (2-2), a regulator device hole (2-3), a power supply switch device hole (2-4) and four screw holes I (2-5) are respectively arranged on the surface of the front panel (2), and a circle of groove III (2-6) is formed along the edge of the back surface of the front panel (2);

the rear panel (3) is rectangular, and a power supply socket hole (3-1), a signal serial port device hole (3-2), a high-voltage output end position hole (3-3) and four screw holes II (3-4) are respectively formed in the surface of the rear panel (3);

the two shell covers (1) are buckled together through the shell vertical surfaces (1-1) at the two sides, one protrusion (1-1-3) on one side of the shell vertical surface (1-1) of the shell cover (1) at the lower end is inserted into one groove I (1-1-4) on one side of the shell vertical surface (1-1) of the shell cover (1) at the upper end, one protrusion (1-1-3) on the other side of the shell vertical surface (1-1) of the shell cover (1) at the lower end is inserted into one groove I (1-1-4) on the other side of the shell vertical surface (1-1) of the shell cover (1) at the lower end, a rear panel (3) is embedded in an annular groove II (1-1-5) formed in the rear end of the two shell covers (1), and four screws are respectively screwed together through four screw holes II (3-4) of the rear panel (3) and four screw holes (1-2) on the two shell covers (1).

The front panel (2) is buckled on the front ends of the two shell covers (1) through a circle of grooves III (2-6), and four screws respectively penetrate through four screw holes I (2-5) of the front panel (2) to be screwed with four screw thread hole sites (1-2) on the two shell covers (1).

2. The novel high voltage power supply chassis enclosure of claim 1, wherein: the shell cover (1) is made of 6061T6 aluminum-magnesium-silicon alloy.

3. A method of assembling a novel high voltage power supply chassis enclosure according to claim 1, comprising the steps of:

two shell covers (1) are selected as the shell cover (1) at the upper end and the shell cover (1) at the lower end for standby;

the shell cover (1) at the lower end is horizontally placed on a desktop, vertical surfaces (1-1) of two sides of the shell cover (1) face upwards, and the lower end of the rear panel (3) is inserted into the vertical surfaces (1-1) of the two sides and a groove II (1-1-5) at the rear end of the shell surface of the shell cover (1);

the method comprises the steps that two side shell vertical surfaces (1-1) of a shell cover (1) at the upper end are buckled on two side shell vertical surfaces (1-1) and a rear panel (3) of the shell cover (1) at the lower end, the upper end of the rear panel (3) is inserted into the two side shell vertical surfaces (1-1) of the shell cover (1) at the upper end and a groove II (1-1-5) at the rear end of the shell surface of the shell cover (1), a bulge (1-1-3) of one side shell vertical surface (1-1) of the shell cover (1) at the lower end is inserted into a groove I (1-1-4) of one side shell vertical surface (1-1) of the shell cover (1) at the upper end, and a bulge (1-1-3) of the other side shell vertical surface (1-1) of the shell cover (1) at the upper end is inserted into a groove I (1-1-4) of the other side shell vertical surface (1-1) at the lower end;

four screws respectively penetrate through four screw holes II (3-4) of the rear panel (3) and are in threaded connection with four threaded hole sites (1-2) on the two shell covers (1), the rear panel (3) is fastened on the two shell covers (1), the front panel (2) is buckled on the front ends of the two shell covers (1), the front ends of the two shell covers (1) are arranged in a circle of grooves III (2-6) of the front panel (2), and the four screws respectively penetrate through four screw holes I (2-5) of the front panel (2) and are in threaded connection with the threaded hole sites (1-2) on the two shell covers (1), so that the front panel (2) is fastened on the two shell covers (1).