CN108415525B - Computer casing with improved structure - Google Patents

Abstract

The invention provides a computer casing with an improved structure, which solves the problem of poor buffering effect of the existing computer casing. The computer casing with the improved structure comprises a casing, wherein two partition plates are vertically and fixedly arranged in the casing, an inner cavity of the casing is divided into an installation cavity and two buffer cavities respectively positioned at two sides of the installation cavity by the two partition plates, radiating pipes are fixedly arranged in the two buffer cavities, a plurality of radiating pipes positioned in the same buffer cavity are uniformly distributed in the vertical direction, the inner ends of the radiating pipes are communicated with the installation cavity, and the outer ends of the radiating pipes extend out of the casing; every is equipped with the air duct in the fin, and the air duct external diameter is less than the fin internal diameter, and the one end overcoat that the installation cavity was kept away from to the air duct has the connecting pipe, and connecting pipe and air duct are sealed to link firmly, connecting pipe and cooling tube looks spiro union, and the cooling tube is stretched out to the connecting pipe outer end, is equipped with the spring in the cooling tube, and the spring housing is outside the air duct, and the spring both ends offset with connecting pipe terminal surface and. The invention has the advantage of good buffering effect.

Description

Computer casing with improved structure

Technical Field

The invention belongs to the field of articles for daily use, relates to a computer, and particularly relates to a computer casing with an improved structure.

Background

Computer hardware refers to the general term for various physical devices in a computer system, including electronic, mechanical, and opto-electronic components. The physical devices form an organic whole according to the requirements of the system structure to provide a material basis for the operation of computer software. Briefly, the computer hardware functions to input and store programs and data, and to execute the programs to manipulate the data into a usable form.

The computer casing is one of computer hardware, and computer casing is usually placed subaerial in use, and people easily bump the computer casing down at the in-process of walking about, and common computer casing simple structure does not have buffer, and parts such as the memory that like this computer casing can make its inside after falling over the ground, hard disk and display card vibrate, and permanent past will cause the damage to these parts, and the result of use is not good, can not satisfy people's user demand.

Disclosure of Invention

The invention aims to solve the problems in the prior art, provides a computer casing with an improved structure, and solves the technical problem of how to improve the buffering performance.

The purpose of the invention can be realized by the following technical scheme: the computer casing with the improved structure comprises a casing and is characterized in that two partition plates are vertically and fixedly arranged in the casing, the two partition plates are arranged side by side, the two partition plates divide an inner cavity of the casing into an installation cavity and two buffer cavities respectively positioned on two sides of the installation cavity, the installation cavity is positioned between the two partition plates, straight-tube-shaped radiating tubes are horizontally and fixedly arranged in the two buffer cavities, a plurality of radiating tubes positioned in the same buffer cavity are uniformly distributed along the vertical direction, the inner ends of the radiating tubes are communicated with the installation cavity, and the outer ends of the radiating tubes extend out of the casing; every the radiator pipe in all be equipped with the air duct along the horizontal direction, the air duct is the straight tubulose of cavity, and the external diameter of air duct is less than the internal diameter of cooling tube, the air duct one end overcoat of keeping away from the installation cavity have the connecting pipe, and connecting pipe and air duct are sealed to link firmly, connecting pipe and cooling tube looks spiro union, and the outer end of connecting pipe stretches out the cooling tube, the cooling tube in be equipped with the spring, the spring is located between connecting pipe and the installation cavity, the spring housing outside the air duct, and the both ends of spring offset with connecting pipe terminal surface and cooling tube inner wall respectively.

In practical use, the mounting cavity is used for mounting electronic components of the computer. Under long-term use, can adhere to more dust in the air duct, at this moment, the outer connecting pipe of revolving is extracted the air duct and is washd can, has the convenient advantage of washing the air duct.

The springs arranged along the horizontal direction are arranged on the two sides of the mounting cavity and used for buffering the impact force on the shell, so that electronic components in the mounting cavity are effectively protected, and the service life of the computer is prolonged; secondly, under the cooperation of cooling tube and air duct, make installation cavity and external direct intercommunication to accelerate the exhaust speed of installation intracavity heat, improve the life-span and the job stabilization nature of computer.

In the above-mentioned computer casing of improvement structure, the cooling tube include nut and body, and the inner and the outer end of body are located the installation intracavity and outside the casing respectively, the nut be located the installation intracavity and the spiro union is outside the inner of body, the inside wall of nut on have the annular convex shoulder, and the one end and the annular convex shoulder of spring offset. By adopting the design, the device has the advantages of simple structure and convenience in installation.

In the computer casing with the improved structure, the annular convex shoulder is fixedly connected with the rubber sleeve, the central axes of the rubber sleeve and the pipe body are collinear, and one end of the spring is sleeved outside the rubber sleeve. The rubber sleeve not only supports the spring, but also can enhance the buffering effect, thereby effectively improving the buffering performance of the casing and better protecting computer components.

In the computer casing of foretell improvement structure, the casing on be equipped with the through-hole that supplies the outer end of body to pass, through-hole and body quantity the same and position one-to-one, the lateral wall of body on seted up annular groove, be equipped with the sealing washer in the annular groove, and the lateral wall of sealing washer offsets with the pore wall of through-hole. Under the effect of sealing washer, make and form reliable sealed between cooling tube and the casing, effectively avoid impurity such as dust to enter into the cushion chamber, make the stable realization of heat dispersion.

In the computer casing of foretell improvement structure, two the diapire of cushion chamber all run through along vertical direction and have seted up a plurality of mounting holes, all inlayed the heat conduction post that matches with the mounting hole in every mounting hole, and the heat conduction post is made by the heat conduction material. By adopting the design, the heat in the buffer cavity can be discharged quickly, so that the heat dissipation efficiency of the shell is improved, the service life of the computer is further prolonged, and the working stability of the computer is further improved.

In the computer casing with the improved structure, the inner side wall of the air duct close to one end of the installation cavity is provided with a conical guide surface.

Compared with the prior art, the computer casing with the improved structure has the following advantages:

1. the springs arranged along the horizontal direction are arranged on the two sides of the mounting cavity and used for buffering the impact force on the shell, so that electronic components in the mounting cavity are effectively protected, and the service life of the computer is prolonged; secondly, under the cooperation of cooling tube and air duct, make installation cavity and external direct intercommunication to accelerate the exhaust speed of installation intracavity heat, improve the life-span and the job stabilization nature of computer.

2. The rubber sleeve not only supports the spring, but also can enhance the buffering effect, thereby effectively improving the buffering performance of the casing and better protecting computer components.

Drawings

Fig. 1 is a schematic structural diagram of a computer housing with an improved structure.

Fig. 2 is an enlarged schematic view of a structure at a in fig. 1.

In the figure, 1, a housing; 1a, mounting a cavity; 1b, a buffer cavity; 2. a partition plate; 3. a radiating pipe; 3a, a pipe body; 3b, a screw cap; 3b1, annular shoulder; 4. an air duct; 4a, a guide surface; 5. a connecting pipe; 6. a spring; 7. a heat-conducting column; 8. a seal ring; 9. a rubber sleeve.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, the computer casing with the improved structure comprises a casing 1, a partition plate 2, a heat dissipation pipe 3, an air duct 4, a connection pipe 5, a spring 6, a heat conduction column 7 and the like. Wherein, the gas-guide tube 4, the connecting tube 5 and the heat-conducting column 7 are all made of heat-conducting materials, and the heat-conducting materials can be brass or stainless steel.

Particularly, baffle 2 sets firmly in casing 1 along vertical direction, and baffle 2 has two and both positions and parallels. At this time, the two partition plates 2 partition the inner cavity of the housing 1 into a mounting cavity 1a and two buffer cavities 1 b. Wherein, the installation cavity 1a is positioned between the two clapboards 2; the two buffer cavities 1b are respectively positioned at two sides of the installation cavity 1 a.

The two buffer cavities 1b are all provided with a radiating pipe 3, and the radiating pipe 3 is in a straight pipe shape. The radiating pipes 3 in the same buffer cavity 1b are distributed uniformly along the vertical direction. The inner ends of the radiating pipes 3 are communicated with the mounting cavity 1a, and the outer ends of the radiating pipes 3 extend out of the housing 1, specifically, in the present embodiment, the radiating pipes 3 are composed of pipe bodies 3a and nuts 3 b. The pipe body 3a is in a straight pipe shape and is arranged in the buffer cavity 1b along the horizontal direction, the partition plate 2 is provided with connecting holes which are opposite to the pipe body 3a in a penetrating mode, the number of the connecting holes is the same as that of the pipe body 3a, the connecting holes are opposite to the pipe body 3a in position one by one, and the inner end of the pipe body 3a penetrates through the connecting holes and is located in the installation cavity 1 a; the shell 1 is provided with through holes, the number of the through holes is the same as that of the tube bodies 3a, the through holes correspond to the tube bodies 3a in position one by one, the outer ends of the tube bodies 3a penetrate through the through holes and are positioned outside the shell 1, the outer side wall of each tube body 3a is provided with an annular groove, a sealing ring 8 is arranged in each annular groove, and the outer side wall of each sealing ring 8 abuts against the wall of each through hole, so that reliable sealing is formed between each tube; the nut 3b is arranged in the mounting cavity 1a, and the nut 3b is screwed outside the inner end of the tube body 3 a. As shown in FIG. 1, the nut 3b has an annular shoulder 3b1 on its inner side wall, and the annular shoulder 3b1 and the nut 3b are coaxially arranged and are of a one-piece construction.

As shown in fig. 1 and 2, the air duct 4 is provided in each radiating pipe 3 in the horizontal direction, and at this time, the central axes of both the air duct 4 and the radiating pipe 3 are collinear. The air duct 4 is in a hollow straight tube shape, and the outer diameter of the air duct 4 is smaller than the inner diameter of the radiating pipe 3, i.e. at this time, an annular gap exists between the air duct 4 and the radiating pipe 3. The inner side wall of one end of the air duct 4 close to the installation cavity 1a is provided with a conical guide surface 4a, the end of the air duct 4 far away from the installation cavity 1a is externally sleeved with a connecting pipe 5, and the connecting pipe 5 is fixedly connected with the air duct 4 in a sealing manner. In this embodiment, the connecting tube 5 and the airway tube 4 are fixedly connected by means of tight fit to achieve the two effects of sealing and fixing the connecting tube 5 and the airway tube 4 at the same time. The connection pipe 5 is screw-coupled with the radiating pipe 3, and the outer end of the connection pipe 5 extends out of the radiating pipe 3. The interior of the radiating pipe 3 is provided with a spring 6, the spring 6 is positioned between the connecting pipe 5 and the mounting cavity 1a, the spring 6 is sleeved outside the air duct 4, and two ends of the spring 6 respectively abut against the end surface of the connecting pipe 5 and the annular convex shoulder 3b 1.

Further, the annular shoulder 3b1 is fixedly connected with the rubber sleeve 9, the central axes of the rubber sleeve 9 and the tube body 3a are collinear, and one end of the spring 6 is sleeved outside the rubber sleeve 9. Preferably, rubber sleeve 9 is fixedly connected to annular shoulder 3b1 by means of gluing.

The diapire of two cushion chambers 1b all runs through along vertical direction and has seted up a plurality of mounting holes, all has inlayed the heat conduction post 7 that matches with the mounting hole in every mounting hole.

In actual use, the mounting cavity 1a is used for mounting computer electronic components. Under long-term use, can adhere to more dust in the air duct 4, at this moment, the outer connecting pipe 5 of spiraling is extracted air duct 4 and is washd can, has the convenient advantage of washing air duct 4.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (4)

1. The computer casing with the improved structure comprises a casing and is characterized in that two partition plates are vertically and fixedly arranged in the casing, the two partition plates are arranged side by side, the two partition plates divide an inner cavity of the casing into an installation cavity and two buffer cavities respectively positioned on two sides of the installation cavity, the installation cavity is positioned between the two partition plates, straight-tube-shaped radiating tubes are horizontally and fixedly arranged in the two buffer cavities, a plurality of radiating tubes positioned in the same buffer cavity are uniformly distributed along the vertical direction, the inner ends of the radiating tubes are communicated with the installation cavity, and the outer ends of the radiating tubes extend out of the casing; each radiating pipe is internally provided with an air duct along the horizontal direction, the air duct is in a hollow straight pipe shape, the outer diameter of the air duct is smaller than the inner diameter of the radiating pipe, one end of the air duct, which is far away from the installation cavity, is externally sleeved with a connecting pipe, the connecting pipe is fixedly connected with the air duct in a sealing way, the connecting pipe is in threaded connection with the radiating pipe, the outer end of the connecting pipe extends out of the radiating pipe, a spring is arranged in the radiating pipe and is positioned between the connecting pipe and the installation cavity, the spring is sleeved outside the air duct, and two ends of the spring respectively abut against; the air duct can be pulled out by the external rotation connecting pipe; the radiating pipe comprises a nut and a pipe body, the inner end and the outer end of the pipe body are respectively positioned in the mounting cavity and outside the shell, the nut is positioned in the mounting cavity and is in threaded connection with the outer end of the pipe body, an annular convex shoulder is arranged on the inner side wall of the nut, and one end of the spring abuts against the annular convex shoulder; the annular convex shoulder is fixedly connected with a rubber sleeve, the central axes of the rubber sleeve and the pipe body are collinear, and one end of the spring is sleeved outside the rubber sleeve.

2. The improved structure of the computer casing as claimed in claim 1, wherein the casing has through holes for the outer ends of the tubes to pass through, the through holes and the tubes have the same number and are positioned in a one-to-one correspondence, the outer side wall of the tube has an annular groove, a sealing ring is disposed in the annular groove, and the outer side wall of the sealing ring abuts against the wall of the through hole.

3. The improved structure of the computer casing as claimed in claim 1, wherein the bottom walls of the two buffer chambers are vertically perforated with a plurality of mounting holes, each mounting hole is embedded with a heat-conducting pillar matching with the mounting hole, and the heat-conducting pillar is made of a heat-conducting material.

4. The improved structure of computer casing as claimed in claim 1, wherein the air duct has a tapered guide surface on its inner side wall near one end of the installation cavity.