CN210381689U - High-efficient big data processing apparatus - Google Patents

Abstract

The utility model discloses a high-efficient big data processing device, including the processing apparatus base, the top of processing apparatus base is provided with the processing apparatus main part, and the both sides of processing apparatus main part all are provided with collects the subassembly, the inside bilateral symmetry of processing apparatus main part is provided with the slide rail, and is provided with the treater mount pad rather than being fit for between the slide rail, the inside bilateral symmetry of treater mount pad is provided with the push-and-pull rod, and the other end of push-and-pull rod all extends to the outside of treater mount pad. The utility model discloses install air-blower, through-hole, air pump, intake pipe, dust collection fill and air duct, the air-blower lasts the cooling of blowing to big equipment, and the air pump is collected the storehouse through the intake pipe to the dust and is inside to bleed, makes the inside in dust collection storehouse form the negative pressure to continuously bleed the inside of processing apparatus main part through the air duct, blow the cooling to equipment through gaseous circulation, and carry and get rid of the heat.

Description

High-efficient big data processing apparatus

Technical Field

The utility model relates to a data processing equipment technical field specifically is a high-efficient big data processing apparatus.

Background

With the advent of the digital age, data is more and more important and more frequent for people's life, information such as communication, consumption and the like in families, various office places and public places can be recorded in big data, the information amount of the data is huge and redundant, it is necessary to use a big data processing device to collect and collate the data, to collate out the required data, when a large amount of operations are continued for a long time, a chip set in a large data processing device generates a large amount of heat, which affects the operation speed and even causes the burning of transistors, and current big data processing apparatus can't effectually dispel the heat the cooling to it, and the in-process of now functioning can adsorb a large amount of dusts, can't clear up it, influences the radiating rate of chip, reduces the life of equipment, leads to equipment to burn even.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient big data processing apparatus to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency big data processing device comprises a 21274, a shape rod and a processing device base, wherein the top of the processing device base is provided with a processing device main body, the two sides of the processing device main body are both provided with collecting assemblies, the two sides inside the processing device main body are symmetrically provided with slide rails, a processor mounting seat matched with the slide rails is arranged between the slide rails, the two sides inside the processor mounting seat are symmetrically provided with push-pull rods, the other ends of the push-pull rods extend to the outside of the processor mounting seat, one sides of the slide rails, which are close to the processor mounting seat, are both provided with limiting grooves, the limiting grooves are matched with the push-pull rods, the other ends of the push-pull rods are both provided with connecting rods, the two ends of the connecting rods are symmetrically provided with sliding blocks, the middle positions inside the processor mounting seat are uniformly provided with rectangular cavities, and the mounting rods are arranged inside, the outer side walls of the mounting rods are provided with third springs, the mounting rods are matched with the corresponding sliding blocks, one side of the connecting rod away from the push-pull rod is provided with a pressing block, the other end of the pressing block extends to the outer side of the processor mounting seat, two ends of the top of the processing device main body are symmetrically provided with sliding sleeves, and the inside of the sliding sleeve is provided with a T-shaped pull rod which is connected with the sliding sleeve in a sliding way, the inner bottom of the T-shaped pull rod is provided with an inner sleeve, the inner sleeves are arranged inside the inner sleeves and are matched with the inner sleeves, the second springs are arranged at the tops of the inner sleeves, the first springs are arranged outside the T-shaped pull rod, and the top end of the first spring is fixed at the bottom of the sliding sleeve, the blower is arranged in the middle of the top of the processing device main body, and the bottom of one end of the processing device main body is provided with a control panel.

Preferably, the collecting assembly comprises a dust collecting bin, an air pump, an air inlet pipe, a dust collecting hopper and an air guide pipe, the dust collecting bin is symmetrically arranged on two sides of the processing device main body, the dust collecting bin is internally provided with the dust collecting hopper connected with the dust collecting bin in a sliding mode, the air guide pipe is communicated with one side of the top of the dust collecting bin, one end of the air guide pipe extends to the inner bottom of the processing device main body, the air pump is symmetrically arranged on the top of two sides of the processing device main body, the air inlet pipe is arranged at the input end of the air pump, and the other end of the air inlet pipe extends to the inner bottom of the dust collecting bin.

Preferably, a bin cover is arranged on the outer side of the dust collecting bin.

Preferably, the processor mounting seat is uniformly provided with through holes, and the processor mounting seat is provided with an insulating layer.

Preferably, the outer side wall of the processing device main body is provided with an access door, and the access door is provided with a hidden handle.

Preferably, the bottom of the inner sleeve is provided with a pressing pad, and the pressing pad is made of rubber.

Preferably, the middle position of the top of the v-shaped rod 21274is provided with a handle, and the outer side wall of the handle is provided with a cotton layer.

Preferably, four corners of the bottom of the base of the processing device are provided with shock absorption support legs.

Compared with the prior art, the beneficial effects of the utility model are that: the high-efficiency big data processing device is provided with an air blower, a through hole, an air pump, an air inlet pipe, a dust collecting hopper and an air guide pipe, wherein the air blower is used for continuously blowing and cooling a big device, the air pump is used for pumping air into the dust collecting bin through the air inlet pipe so as to form negative pressure inside the dust collecting bin, thereby continuously pumping air into the main body of the processing device through the air guide pipe, the air blower is used for blowing and cooling the device through the circulation of air, carrying and removing heat, combining the dust collecting bin and the dust collecting hopper, intercepting and collecting dust by the dust collecting hopper after entering the dust collecting bin, and effectively cleaning the dust, thereby improving the heat dissipation effect, avoiding the reduction of the heat dissipation capacity of the device caused by dust stacking, further prolonging the service life of the device, and the high-efficiency big data processing device is provided with a push-pull rod, a, through inwards pinching two sets of pressing blocks, thereby draw in the push-and-pull rod through the connecting rod, and it is spacing to relieve with the spacing groove, the operator of being convenient for pulls out the treater mount pad and carries out dismouting and maintenance, operator's work load and operation degree of difficulty have been reduced, combine sliding sleeve, T type pull rod, first spring, the second spring, interior sleeve pipe and outer tube, compress tightly and cushion the surface of equipment through the spring extrusion, the vibration that produces when avoiding equipment to function, cause the injury to equipment, and noise pollution has been reduced when improving stability.

Drawings

Fig. 1 is a schematic front sectional view of the present invention;

fig. 2 is a schematic front view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at the position A of the present invention;

fig. 4 is an enlarged schematic view of the structure at B of the present invention.

In the figure: 1. a dust collection bin; 2. an air pump; 3. a sliding sleeve; 4. \ 21274; 5. a blower; 6. A T-shaped pull rod; 7. a first spring; 8. an inner sleeve; 9. a compression pad; 10. an air inlet pipe; 11. a processor mount; 12. a dust collection hopper; 13. an air duct; 14. shock absorption support legs; 15. a through hole; 16. a push-pull rod; 17. a processing device base; 18. a limiting groove; 19. a slide rail; 20. an access door; 21. a control panel; 22. A second spring; 23. an inner sleeve; 24. a slider; 25. a connecting rod; 26. a rectangular cavity; 27. a third spring; 28. mounting a rod; 29. a pressing block; 30. a processing apparatus main body.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: a high-efficiency big data processing device comprises a shape rod 4 and a processing device base 17, wherein the top of the processing device base 17 is provided with a processing device main body 30, the two sides of the processing device main body 30 are both provided with collecting components, the two sides inside the processing device main body 30 are symmetrically provided with sliding rails 19, a processor mounting seat 11 matched with the sliding rails 19 is arranged between the sliding rails 19, the processor mounting seat 11 is conveniently pulled outwards, equipment is assembled, disassembled and maintained, the two sides inside the processor mounting seat 11 are symmetrically provided with push-pull rods 16, the other ends of the push-pull rods 16 extend to the outside of the processor mounting seat 11, one side of the sliding rails 19 close to the processor mounting seat 11 is provided with a limiting groove 18, the limiting groove 18 is matched with the push-pull rods 16, the stability inside the equipment is improved, translocation is avoided during operation, the other ends of the push-pull rods 16 are both provided with connecting rods 25, sliding blocks 24 are symmetrically arranged at two ends of a connecting rod 25, rectangular cavities 26 are uniformly formed in the middle of the inside of the processor mounting seat 11, mounting rods 28 are arranged in the rectangular cavities 26, third springs 27 are arranged on the outer side walls of the mounting rods 28, the mounting rods 28 are all matched with the corresponding sliding blocks 24, pressing blocks 29 are arranged on one sides, away from the push-pull rod 16, of the connecting rod 25, the other ends of the pressing blocks 29 extend to the outside of the processor mounting seat 11, sliding sleeves 3 are symmetrically arranged at two ends of the top of the processing device main body 30, T-shaped pull rods 6 in sliding connection with the sliding sleeves 3 are arranged in the sliding sleeves 3, inner sleeves 8 are arranged at the inner bottoms of the T-shaped pull rods 6, inner sleeves 8 matched with the inner sleeves 8 are arranged in the inner sleeves 8, second springs 22 are arranged at the tops of the inner sleeves 8, first springs 7 are arranged on the outer sides of the T-shaped pull rods 6, buffering and shock attenuation to equipment, the vibration that produces when reducing equipment operation plays the guard action to equipment, and the top of first spring 7 is fixed in sliding sleeve 3's bottom, and the intermediate position department at processing apparatus main part 30 top is provided with air-blower 5, and air-blower 5's model is RBG2100D4B, and the bottom of processing apparatus main part 30 one end is provided with control panel 21, and air pump 2 and air-blower 5 all are prior art, and its constitutional structure all is the same with current device with the connected mode.

In this implementation: the collecting assembly comprises dust collecting bins 1, an air pump 2, an air inlet pipe 10, dust collecting hoppers 12 and air guide pipes 13, the two groups of dust collecting bins 1 are symmetrically arranged at two sides of a processing device main body 30, the dust collecting hoppers 12 connected with the dust collecting bins 1 in a sliding manner are arranged inside the dust collecting bins 1, the air guide pipes 13 are communicated with one sides of the inner tops of the dust collecting bins 1, one ends of the air guide pipes 13 extend to the inner bottom of the processing device main body 30, the air pumps 2 are symmetrically arranged at the top ends of two sides of the processing device main body 30, the air inlet pipe 10 is arranged at the input end of the air pump 2, the other end of the air inlet pipe 10 extends to the inner bottom of the dust collecting bins 1, the interior of the device is subjected to continuous dust cleaning, the heat dissipation of the device is prevented from being influenced by dust stacking, the service life of the device is shortened, bin covers are arranged at, the processor installation base 11 is uniformly provided with through holes 15, and the processor installation base 11 is provided with an insulating layer, thereby improving the heat dissipation effect, protecting the insulating property and avoiding the equipment from electrostatic interference, the outer side wall of the processing device main body 30 is provided with an access door 20, and the access door 20 is provided with a hidden handle which is convenient for the maintenance and cleaning of the interior of the equipment, the bottom of the inner sleeve 8 is provided with a pressing pad 9, the pressing pad 9 is made of rubber, so that the stability during pressing is improved, translocation is avoided during operation of equipment, 21274is avoided, a handle is arranged at the middle position of the top of the rod 4, and the lateral wall of handle is provided with the cotton layer, is convenient for lift the pressure pad 9 and install, and the four corners of processing apparatus base 17 bottom all is provided with shock attenuation stabilizer blade 14, reduces the vibration that produces when the whole function of device, protects equipment, and noise pollution abatement.

The working principle is as follows: the power supply is switched on (the device uses electrical components which are all powered by an external power supply), the device is moved to a designated position, the hidden handle is held by hands to pull the access door 20 open, the thumb and the forefinger pinch the two groups of pressing blocks 29 inwards, so that the push-pull rod 16 is pulled inwards through the connecting rod 25 and is released from the limit groove 18, after the processor mounting seat 11 is pulled out, the big data processing equipment is mounted at the top of the processor mounting seat 11, the handle is held by hands to pass through the T-shaped 744, the T-shaped pull rod 6 is pulled upwards through the shaped rod 4, after the processor mounting seat 11 is pushed back to the interior of the processing device main body 30, the handle is released, the T-shaped pull rod 6 is pushed by the first spring 7 to slide downwards in the sliding sleeve 3, the pressing pad 9 is enabled to press the big data processing equipment, the second spring 22 is squeezed to buffer, the sliding block 24 is pushed by the third spring 27 to slide, the push-pull rod 16, open air pump 2 and air-blower 5 through control panel 21 and function, air-blower 5 lasts to blow the cooling to big data processing equipment, and air pump 2 is bled through intake pipe 10 to dust collection storehouse 1 is inside, makes the inside formation negative pressure in dust collection storehouse 1 to continuously bleed through air duct 13 to the inside of processing apparatus main part 30, the dust gets into dust collection storehouse 1 and is held up by dust collection fill 12 after inside and collect.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (1)

1. An efficient big data processing device comprises a v-shaped rod (4) and a processing device base (17), and is characterized in that: the top of the processing device base (17) is provided with a processing device main body (30), two sides of the processing device main body (30) are respectively provided with a collecting component, two sides of the inside of the processing device main body (30) are symmetrically provided with slide rails (19), a processor mounting seat (11) suitable for the slide rails (19) is arranged between the slide rails (19), two sides of the inside of the processor mounting seat (11) are symmetrically provided with a push-pull rod (16), the other end of the push-pull rod (16) extends to the outside of the processor mounting seat (11), one side of the slide rails (19) close to the processor mounting seat (11) is respectively provided with a limiting groove (18), the limiting grooves (18) are matched with the push-pull rod (16), the other end of the push-pull rod (16) is respectively provided with a connecting rod (25), two ends of the connecting rod (25) are symmetrically provided with sliding blocks (24), and a rectangular cavity (26) is uniformly arranged at the middle position of the inside of the, the rectangular cavity (26) is internally provided with mounting rods (28), the outer side walls of the mounting rods (28) are provided with third springs (27), the mounting rods (28) are suitable for corresponding sliding blocks (24), one side of the connecting rod (25) far away from the push-pull rod (16) is provided with a pressing block (29), the other end of the pressing block (29) extends to the outer side of the processor mounting seat (11), two ends of the top of the processing device main body (30) are symmetrically provided with sliding sleeves (3), the sliding sleeves (3) are internally provided with T-shaped pull rods (6) in sliding connection with the sliding sleeves, the inner bottoms of the T-shaped pull rods (6) are provided with inner sleeves (8), the inner sleeves (8) are internally provided with inner sleeves (8) suitable for the inner sleeves, and the top of the inner sleeves (8) is provided with second springs (22), the outer sides of the T-shaped pull rods (6) are provided with first springs (7), the top ends of the first springs (7) are fixed to the bottom of the sliding sleeve (3), the middle of the top of the processing device main body (30) is provided with a blower (5), and the bottom of one end of the processing device main body (30) is provided with a control panel (21);

the collecting assembly comprises dust collecting bins (1), air pumps (2), air inlet pipes (10), dust collecting hoppers (12) and air guide pipes (13), wherein the two groups of dust collecting bins (1) are symmetrically arranged at two sides of a processing device main body (30), the dust collecting hoppers (12) in sliding connection with the dust collecting bins (1) are arranged inside the dust collecting bins (1), the air guide pipes (13) are communicated with one sides of the inner tops of the dust collecting bins (1), one ends of the air guide pipes (13) extend to the inner bottom of the processing device main body (30), the air pumps (2) are symmetrically arranged at the top ends of two sides of the processing device main body (30), and the air inlet pipes (10) are arranged at the input ends of the air pumps (2); the other end of the air inlet pipe (10) extends to the inner bottom of the dust collecting bin (1); a bin cover is arranged on the outer side of the dust collecting bin (1); through holes (15) are uniformly formed in the processor mounting seat (11), and an insulating layer is arranged on the processor mounting seat (11); an access door (20) is arranged on the outer side wall of the processing device main body (30), and a hidden handle is arranged on the access door (20); the bottom of the inner sleeve (8) is provided with a pressing pad (9), and the pressing pad (9) is made of rubber; the middle position of the top of the v-shaped rod (4) is provided with a handle, and the outer side wall of the handle is provided with a cotton layer; four corners of the bottom of the processing device base (17) are provided with shock absorption support legs (14).

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