阅读说明：本技术 一种大数据分析用的可移动式散热机柜 (Movable heat dissipation rack that big data analysis used ) 是由 陈静 李川 白云 陈旭东 于 2019-10-22 设计创作，主要内容包括：本发明涉及一种大数据分析用的可移动式散热机柜,包括底座和软垫层,所述底座的上端顶部分布有柜体,且柜体的正面两端开设有固定槽,所述软垫层贴合于固定槽的内部,所述底座的两端活动连接有第一铰链,且第一铰链的另一侧分布有门体,所述门体的内壁两端分布有嵌入块,且嵌入块的中部焊接有嵌入板,本发明通过底座和柜体的设置,底座与柜体之间为焊接一体化结构,底座与柜体作为整个装置的基础设备,采用焊接的形式连接在一起,其连接强度高结构稳定,并且底座内侧设置有移动轮,移动轮能够有效降低底座与地面之间的摩擦系数,并且当使用者需要对该装置进行调节时,使用者能够通过推动柜体,对该柜体进行移动,提高该装置的灵活性。(The invention relates to a movable heat-dissipating cabinet for big data analysis, which comprises a base and a soft cushion layer, wherein a cabinet body is distributed at the top of the upper end of the base, fixed grooves are formed at the two ends of the front surface of the cabinet body, the soft cushion layer is attached to the inside of the fixed grooves, a first hinge is movably connected with the two ends of the base, a door body is distributed at the other side of the first hinge, embedded blocks are distributed at the two ends of the inner wall of the door body, and an embedded plate is welded in the middle of the embedded blocks. The user can remove this cabinet body through promoting the cabinet body, improves the device's flexibility.)

1. The utility model provides a movable heat dissipation rack that big data analysis used, includes base (1) and cushion layer (4), its characterized in that: the improved refrigerator cabinet is characterized in that a cabinet body (2) is distributed at the top of the upper end of the base (1), fixing grooves (3) are formed in the two front ends of the cabinet body (2), the soft cushion layer (4) is attached to the inside of the fixing grooves (3), first hinges (5) are movably connected to the two ends of the base (1), a door body (6) is distributed on the other side of each first hinge (5), embedded blocks (7) are distributed at the two ends of the inner wall of the door body (6), embedded plates (8) are welded in the middle of the embedded blocks (7), compression springs (9) are fixed on the two sides of the outer wall of each embedded plate (8), tongue pieces (10) are distributed at the tail ends of the compression springs (9), fixing plates (11) are distributed in the middle of the front of the door body (6), fan blades (12) are distributed on the inner sides of the fixing plates (11), connecting ropes (13) penetrate through the two inner sides of the fan blades (12, and the inboard swing joint of slide rail (14) has slider (15), the one end welding of slider (15) has box (16), and the front distribution of box (16) has a seal to decide structure (17), the outer wall both sides of box (16) are provided with handle (18), the lower extreme distribution of box (16) has baffle (19), wind hole (20) have been seted up to the one side that the cabinet body (2) is adjacent with fixed slot (3), and the lower extreme both sides of the cabinet body (2) are provided with and remove wheel (21), the back both sides welding of the cabinet body (2) has shrouding (22), louvre (23) have been seted up at the outer wall both ends of box (16), the top inner wall of the cabinet body (2) is provided with roof (24), and the inner wall laminating of roof (24) has sealing layer (25), the inboard middle part distribution of roof (24) has heat.

2. The movable heat dissipation cabinet for big data analysis according to claim 1, wherein: the base (1) and the cabinet body (2) are distributed horizontally and vertically, and the base (1) and the cabinet body (2) are welded into an integral structure.

3. The movable heat dissipation cabinet for big data analysis according to claim 1, wherein: the fixing groove (3) and the soft cushion layer (4) are mutually attached, and the size of the fixing groove (3) is matched with that of the embedding block (7).

4. The movable heat dissipation cabinet for big data analysis according to claim 1, wherein: the tongue piece (10) and the embedded plate (8) form an elastic structure through the compression spring (9), and the tongue piece (10) is symmetrically distributed along the central line of the embedded plate (8).

5. The movable heat dissipation cabinet for big data analysis according to claim 1, wherein: the box body (16) forms a sliding structure with the cabinet body (2) through the sliding block (15) and the sliding rail (14), and the box body (16) is evenly distributed on the inner side of the cabinet body (2) at equal intervals.

6. The movable heat dissipation cabinet for big data analysis according to claim 1, wherein: the sealing structure (17) comprises a second hinge (1701), a connecting plate (1702), an embedding head (1703), a radiating pipe (1704) and a noise reduction pipe (1705), wherein the connecting plate (1702) is distributed at one end of the second hinge (1701), the embedding head (1703) is arranged on one side of the inner wall of the connecting plate (1702), the radiating pipe (1704) is distributed at the upper end of the connecting plate (1702), and the noise reduction pipe (1705) is attached to the inner wall of the radiating pipe (1704).

7. The cabinet of claim 6, wherein the cabinet further comprises: the connection board (1702) forms a rotating structure with the box body (16) through the second hinge (1701), and the connection board (1702) forms an embedded structure with the box body (16) through the embedding head (1703).

8. The cabinet of claim 6, wherein the cabinet further comprises: the radiating pipes (1704) are uniformly distributed on the inner side of the box body (16) at equal intervals, and the radiating pipes (1704) and the noise reduction pipes (1705) are mutually attached.

9. The movable heat dissipation cabinet for big data analysis according to claim 1, wherein: the heat dissipation mechanism (26) comprises a fixed disc (2601), a negative pressure fan (2602) and a filter screen (2603), the negative pressure fan (2602) is distributed at the circle center of the fixed disc (2601), and the filter screen (2603) is distributed at the outer part of the negative pressure fan (2602).

Technical Field

The invention relates to the technical field of big data analysis, in particular to a movable heat dissipation cabinet for big data analysis.

Background

The big data is used as the vocabulary of the IT industry which is the most fiery at present, the utilization of the commercial value of the big data, such as data warehouse, data security, data analysis, data mining and the like, which is caused by the big data gradually becomes a profit focus for industry people to pursue, and with the coming of the big data era, the big data analysis is also in the design of a commercial intelligent system, the construction of the data warehouse is a key, is the basis of the commercial intelligent system, bears the task of integrating the data of a business system, provides data extraction, conversion and loading (ETL) for the commercial intelligent system, inquires and accesses the data according to the theme, provides a data platform for online data analysis and data mining, and needs a heat dissipation cabinet to dissipate heat of a storage disc in a database in the big data analysis.

The existing heat dissipation cabinet can only perform internal heat dissipation in use, needs a large amount of energy consumption to perform heat dissipation, and has limited storage discs stored in the cabinet in use, so that the storage discs cannot be stored in a large batch.

Disclosure of Invention

The invention aims to provide a movable heat dissipation cabinet for big data analysis, which aims to solve the problems that the existing heat dissipation cabinet in the background art can only perform internal heat dissipation in use, needs a large amount of energy consumption to perform heat dissipation, and has limited storage discs stored in the cabinet in use, so that the storage discs cannot be stored in large batch.

In order to achieve the purpose, the invention provides the following technical scheme: a movable heat dissipation cabinet for big data analysis comprises a base and a soft cushion layer, wherein a cabinet body is distributed at the top of the upper end of the base, fixed grooves are formed in the two ends of the front face of the cabinet body, the soft cushion layer is attached inside the fixed grooves, first hinges are movably connected to the two ends of the base, a door body is distributed on the other side of each first hinge, embedded blocks are distributed at the two ends of the inner wall of the door body, embedded plates are welded in the middle of the embedded blocks, compression springs are fixed to the two sides of the outer wall of each embedded plate, tongue pieces are distributed at the tail ends of the compression springs, fixed plates are distributed in the middle of the front face of the door body, fan blades are distributed on the inner sides of the fixed plates, connecting ropes penetrate through the two ends of the inner sides of the fan blades, slide rails are arranged on the two sides of the inner side of the cabinet body, slide blocks, the utility model discloses a cabinet, including the cabinet body, the outer wall both sides of cabinet body are provided with the handle, the lower extreme distribution of box has the baffle, the wind hole has been seted up to the cabinet body and the adjacent one side of fixed slot, and the lower extreme both sides of the cabinet body are provided with the removal wheel, the welding of the back both sides of the cabinet body has the shrouding, the louvre has been seted up at the outer wall both ends of box, the top inner wall of the cabinet body is provided with the roof, and the inner wall laminating of roof has.

Preferably, the base and the cabinet body are distributed in a horizontal and vertical manner, and the base and the cabinet body are in a welding integrated structure.

Preferably, the fixing groove and the cushion layer are mutually attached, and the size of the fixing groove is matched with that of the embedded block.

Preferably, the tongue piece and the embedded plate form an elastic structure through a compression spring, and the tongue piece is symmetrically distributed along the central line of the embedded plate.

Preferably, the box body forms a sliding structure with the cabinet body through the sliding block and the sliding rail, and the box body is uniformly distributed on the inner side of the cabinet body at equal intervals.

Preferably, seal and decide the structure including second hinge, connecting plate, embedding head, cooling tube and noise reduction pipe, and the one end distribution of second hinge has the connecting plate, inner wall one side of connecting plate is provided with the embedding head, the upper end distribution of connecting plate has the cooling tube, and the inner wall laminating of cooling tube has the noise reduction pipe.

Preferably, the connecting plate and the box body form a rotating structure through a second hinge, and the connecting plate and the box body form an embedded structure through an embedded head.

Preferably, the radiating pipes are uniformly distributed on the inner side of the box body at equal intervals, and the radiating pipes and the noise reduction pipes are mutually attached.

Preferably, the heat dissipation mechanism comprises a fixed disk, a negative pressure fan and a filter screen, the negative pressure fan is distributed at the center of the fixed disk, and the filter screen is distributed at the outer part of the negative pressure fan.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the invention, through the arrangement of the base and the cabinet body, a welding integrated structure is formed between the base and the cabinet body, the base and the cabinet body are used as basic equipment of the whole device and are connected together in a welding mode, the connection strength is high, the structure is stable, the moving wheels are arranged on the inner side of the base, the moving wheels can effectively reduce the friction coefficient between the base and the ground, and when a user needs to adjust the device, the user can move the cabinet body by pushing the cabinet body, so that the flexibility of the device is improved.

2. According to the invention, through the arrangement of the fixed groove and the embedded block, the size of the fixed groove is matched with that of the embedded block, when a user needs to seal the cabinet body, the user can rotate the door body anticlockwise along the joint of the first hinge by rotating the door body, the embedded block is embedded into the fixed groove, the soft cushion layer flexibly protects the embedded block, the shaking range of the whole cabinet body is reduced when the door is closed, the damping effect is achieved, and in addition, the pulling structure is arranged between the fan blades and the connecting rope, the user can adjust the distance between the fan blades according to the self requirement, and the use requirement of the user is met.

3. According to the invention, through the arrangement of the embedded plate and the tongue piece, the tongue piece is symmetrically distributed along the central line of the embedded plate, when the door body is closed, the compression spring resets and rebounds, the compression spring drives the tongue piece to eject out, the tongue piece is clamped in the fixing groove, the side position fixing effect is carried out on the door body, and the possibility of self-opening of the door body is reduced.

4. According to the invention, through the arrangement of the cabinet body and the box bodies, the box bodies are uniformly distributed on the inner side of the cabinet body at equal intervals, when a user puts a storage disc filled with a data center into the box body, the user can lift the box body through the handle, the sliding block slides along the inner wall of the sliding rail, the whole box body slides into the cabinet body, the whole cabinet body can accommodate the box bodies with the same size, the accommodating space is large, a certain space is reserved between the box bodies, and the whole box body and the box bodies are not interfered with each other while the heat dissipation effect is met.

5. According to the invention, through the arrangement of the sealing structure, the second hinge, the connecting plate, the embedding head, the radiating pipe and the noise reduction pipe are mutually attached, when a user needs to install the storage disc, the user can rotate the connecting plate anticlockwise along the circle center of the second hinge, open the front surface of the box body, simultaneously clamp the storage disc into the box body, then rotate the connecting plate, and clamp the embedding head at one end of the connecting plate into the groove hole in the front surface of the box body.

Drawings

Fig. 1 is a schematic view of an opening structure of a movable heat dissipation cabinet for big data analysis according to the present invention;

FIG. 2 is a schematic front view of a movable heat dissipation cabinet for big data analysis according to the present invention;

FIG. 3 is a schematic diagram of a back side structure of a movable heat dissipation cabinet for big data analysis according to the present invention;

FIG. 4 is a schematic top view of a removable heat sink cabinet for big data analysis according to the present invention;

FIG. 5 is a schematic structural diagram of a case of a movable heat dissipation cabinet for big data analysis according to the present invention;

FIG. 6 is a schematic diagram of a top view of a case of a removable heat dissipation cabinet for big data analysis according to the present invention;

fig. 7 is a schematic diagram of a partially enlarged structure at a position a in fig. 1 of a movable heat dissipation cabinet for big data analysis according to the present invention.

In the figure: 1. a base; 2. a cabinet body; 3. fixing grooves; 4. a soft cushion layer; 5. a first hinge; 6. a door body; 7. embedding a block; 8. a built-in plate; 9. a compression spring; 10. a tongue piece; 11. a fixing plate; 12. a fan blade; 13. connecting ropes; 14. a slide rail; 15. a slider; 16. a box body; 17. sealing the structure; 1701. a second hinge; 1702. a connecting plate; 1703. an embedding head; 1704. a radiating pipe; 1705. a noise reduction tube; 18. a handle; 19. a partition plate; 20. a wind hole; 21. a moving wheel; 22. closing the plate; 23. heat dissipation holes; 24. a top plate; 25. a sealing layer; 26. a heat dissipation mechanism; 2601. fixing the disc; 2602. a negative pressure fan; 2603. and (5) filtering by using a filter screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a movable heat dissipation cabinet for big data analysis comprises a base 1, a cabinet body 2, a fixed groove 3, a soft cushion layer 4, a first hinge 5, a door body 6, an embedded block 7, an embedded plate 8, a compression spring 9, a tongue piece 10, a fixed plate 11, fan blades 12, a connecting rope 13, a slide rail 14, a slide block 15, a box body 16, a sealing structure 17, a second hinge 1701, a connecting plate 1702, an embedded head 1703, a heat dissipation pipe 1704, a noise reduction pipe 1705, a handle 18, a partition plate 19, an air hole 20, a movable wheel 21, a sealing plate 22, a heat dissipation hole 23, a top plate 24, a sealing layer 25, a heat dissipation mechanism 26, a fixed disk 2601, a negative pressure fan 2602 and a filter screen 2603, wherein the cabinet body 2 is distributed on the top of the upper end of the base 1, the fixed groove 3 is formed on two ends of the front surface of the cabinet body 2, the base 1 and the cabinet body 2 are distributed in a horizontal and vertical shape, a welding integrated structure, adopt welded form to link together, its joint strength is high stable in structure to base 1 inboard is provided with removes wheel 21, removes wheel 21 and can effectively reduce the coefficient of friction between base 1 and the ground, and when the user need adjust the device, the user can remove this cabinet body 2 through promoting cabinet body 2, improves the flexibility of the device.

The soft cushion layer 4 is attached inside the fixed groove 3, the two ends of the base 1 are movably connected with the first hinge 5, the door body 6 is distributed on the other side of the first hinge 5, the embedded blocks 7 are distributed on the two ends of the inner wall of the door body 6, the embedded plate 8 is welded in the middle of the embedded blocks 7, the fixed groove 3 and the soft cushion layer 4 are attached to each other, the size of the fixed groove 3 is matched with the size of the embedded blocks 7, when a user needs to seal the cabinet body 2, the user can rotate the door body 6 anticlockwise around the joint of the first hinge 5 by rotating the door body 6, the embedded blocks 7 are embedded in the fixed groove 3, the soft cushion layer 4 flexibly protects the embedded blocks 7, the shaking range of the whole cabinet body 2 when the door is closed is reduced, the damping effect is achieved, and the pulling structure is arranged between the fan blades 12 and the connecting rope 13, the user can adjust the distance between the fan blades 12 according to the, the use requirements of users are met.

The outer wall both sides of embedding board 8 are fixed with compression spring 9, and compression spring 9's end distribution has tongue piece 10, tongue piece 10 constitutes elastic construction through compression spring 9 and embedding board 8, and tongue piece 10 along the central line symmetric distribution of embedding board 8, when the door body 6 is closed, compression spring 9 resets and kick-backs, compression spring 9 drives tongue piece 10 ejecting, tongue piece 10 card is gone into in fixed slot 3, carry out the fixed effect of side position to the door body 6, reduce the possibility of the door body 6 from opening.

A fixed plate 11 is distributed in the middle of the front face of the door body 6, fan blades 12 are distributed on the inner side of the fixed plate 11, connecting ropes 13 penetrate through the two ends of the inner side of each fan blade 12, slide rails 14 are arranged on the two sides of the inner side of the cabinet body 2, sliders 15 are movably connected to the inner sides of the slide rails 14, a box body 16 is welded at one end of each slider 15, a sealing structure 17 is distributed on the front face of the box body 16, the box body 16 and the cabinet body 2 form a sliding structure through the sliders 15 and the slide rails 14, the box bodies 16 are uniformly distributed on the inner side of the cabinet body 2 at equal intervals, when a user puts a storage disc filled with a data center into the box body 16, the user can lift the box body 16 through a handle 18, the sliders 15 slide along the inner walls of the slide rails 14, the whole box body 16 slides into the cabinet body 2, the whole cabinet body 2 can contain 3, the whole box body 16 and the box body 16 are not interfered with each other while the heat dissipation effect is met.

The enclosing structure 17 comprises a second hinge 1701, a connecting plate 1702, an embedding head 1703, radiating pipes 1704 and noise reduction pipes 1705, wherein the connecting plate 1702 is distributed at one end of the second hinge 1701, the embedding head 1703 is arranged on one side of the inner wall of the connecting plate 1702, the radiating pipes 1704 are distributed at the upper end of the connecting plate 1702, the noise reduction pipes 1705 are attached to the inner wall of the radiating pipes 1704, the connecting plate 1702 forms a rotating structure with the box body 16 through the second hinge 1701, the connecting plate 1702 forms an embedded structure with the box body 16 through the embedding head 1703, the radiating pipes 1704 are uniformly distributed at the inner side of the box body 16 at equal intervals, the radiating pipes 1704 and the noise reduction pipes 1705 are attached to each other, when a user needs to install the storage disc, the user can rotate the connecting plate 1702 anticlockwise around the center of the second hinge 1701 to open the front surface of the box body 16 and simultaneously clamp the storage disc into the box body 16, then rotate the connecting plate 1702, the embedding head 1703, this mounting means is simple, and the person of facilitating the use settles the storage dish, and the cooling tube 1704 at storage dish upper end top can carry out the thermal treatment to the storage dish simultaneously, and noise reduction pipe 1705 can reduce the noise that the air inflow produced, plays certain noise reduction effect.

Handles 18 are arranged on two sides of the outer wall of the box body 16, a partition plate 19 is distributed at the lower end of the box body 16, air holes 20 are formed in one side of the cabinet body 2 adjacent to the fixed groove 3, moving wheels 21 are arranged on two sides of the lower end of the cabinet body 2, sealing plates 22 are welded on two sides of the back of the cabinet body 2, heat dissipation holes 23 are formed in two ends of the outer wall of the box body 16, a top plate 24 is arranged on the inner wall of the top of the cabinet body 2, a sealing layer 25 is attached to the inner wall of the top plate 24, a heat dissipation mechanism 26 is distributed in the middle of the inner side of the top plate 24, the heat dissipation mechanism 26 comprises a fixed disc 2601, a negative pressure fan 2602 and a filter screen 2603, a negative pressure fan 2602 is distributed at the center of a circle of the fixed disc 2601, the negative pressure fan 2603 is distributed outside the negative, reach the air-cooled demand to its a plurality of holes mutually support, when can be good satisfying the forced air cooling, reach the number that reduces negative-pressure air fan 2602 and set up, the device can dispel the heat through natural wind simultaneously, reaches the effect that reduces green.

The working principle of the embodiment is as follows: the movable heat dissipation cabinet for big data analysis is characterized in that when in use, the connecting plate 1702 rotates anticlockwise along the circle center of the second hinge 1701, the front face of the box body 16 is opened, the storage disc is clamped into the box body 16, then the connecting plate 1702 is rotated, the embedding head 1703 at one end of the connecting plate 1702 is clamped into the slotted hole in the front face of the box body 16, the mounting mode is simple, a user can conveniently place the storage disc, the radiating pipe 1704 at the top of the upper end of the storage disc can perform heat dissipation treatment on the storage disc, the noise reducing pipe 1705 can reduce noise generated by air inflow and play a certain noise reduction effect, at the moment, the user can place the storage disc filled with a data center into the box body 16, the user can lift the box body 16 through the handle 18, the sliding block 15 slides along the inner wall of the sliding rail 14, the whole box body 16 slides into the cabinet body 2, and the whole cabinet body 2 can contain 3 box, the containing space is large, a certain space is reserved between the box body 16 and the box body 16, the whole box body 16 and the box body 16 are not interfered with each other when the heat dissipation effect is met, then when a user needs to perform air cooling, the user can open the negative pressure fan 2602, the negative pressure fan 2602 blows air inwards to accelerate the air flow rate in the cabinet body 2, meanwhile, a plurality of holes are formed in the box body to meet the air cooling requirement, the holes are matched with each other, the air cooling can be well met, the number of the negative pressure fan 2602 can be reduced, meanwhile, the device can dissipate heat through natural wind, the effect of reducing the green environment is achieved, finally, the moving wheels 21 are arranged on the inner side of the base 1, the friction coefficient between the base 1 and the ground can be effectively reduced through the moving wheels 21, and when the device needs to be adjusted, the user can push the cabinet, the cabinet body 2 is moved, and the flexibility of the device is improved.

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 various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.