CN211557847U - Multifunctional energy data acquisition server - Google Patents

Abstract

The utility model discloses a multi-functional energy data acquisition server, including box, slide and motor, the internally mounted of box has the heat dissipation pole, and the corner of heat dissipation pole passes through slide and slide bar sliding connection to the slide bar level is fixed at the inside corner of box, the upper right angle department and the lead screw threaded connection of heat dissipation pole, and the up end of box installs the motor of having connected the pivot to the right-hand member of pivot is installed in the heat dissipation box, and the up end of box rotates through the bearing frame simultaneously and installs the transmission shaft, hollow rod is installed to the up end of heat dissipation pole, and installs the gasket on the hollow rod, the spout has been seted up to the roof of box. This multi-functional energy data acquisition server uses motor drive, drives inside heat radiation structure and can be at the box mesocycle back-and-forth movement, realizes improving the purpose of heat dissipation scope to can utilize same motor drive power, realize induced drafting heat dissipation, the structure transmission is more reasonable.

Description

Multifunctional energy data acquisition server

Technical Field

The utility model relates to a data acquisition technical field specifically is multi-functional energy data acquisition server.

Background

The data acquisition of the energy relies on the data transmission between multiple acquisition equipment and the server to realize, what play the collection effect should be a plurality of acquisition equipment of terminal, and the server has played the effect of important data storage, but the following problem exists in current like equipment when in actual use:

because need the data information that a plurality of terminal equipment of large batch processing carried, consequently can be in the high heat state for a long time in the server, long-time the use leads to high temperature because of its part is ageing with higher speed easily, and the heat radiation structure of current server is mostly single or a plurality of fan structures, and the cooling surface is comparatively single all the time, and radiating efficiency is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-functional energy data acquisition server to provide in solving above-mentioned background art because need the data information that a plurality of terminal equipment of large batch processing carried, consequently can be in the high heat state for a long time in the server, long-time the use leads to the high temperature to be ageing with higher speed because of its part easily, and the heat radiation structure of current server is mostly single or more fan structure, the cooling surface is comparatively single all the time, the not high problem of radiating efficiency.

In order to achieve the above object, the utility model provides a following technical scheme: multifunctional energy data acquisition server, including box, slide and motor, the internally mounted of box has the heat dissipation pole, and the corner of heat dissipation pole passes through slide and slide bar sliding connection to the slide bar level is fixed at the inside corner of box, the upper right angle department and the lead screw threaded connection of heat dissipation pole, and the up end of box installs the motor of having connected the pivot to the right-hand member of pivot is installed in the heat dissipation box, and the up end of box rotates through the bearing frame simultaneously and installs the transmission shaft, hollow rod is installed to the up end of heat dissipation pole, and installs the gasket on the hollow rod, the spout has been seted up to the roof of box.

Preferably, the heat dissipation box is fixed on the top end of the box body, fan blades are arranged inside the heat dissipation box, and the fan blades are vertically fixed at the right end of the rotating shaft.

Preferably, one end of the transmission shaft is connected with the rotating shaft through 2 mutually meshed bevel gears, the two bevel gears are distributed at an included angle of 90 degrees, and the other end of the transmission shaft is connected with the outer end of the screw rod through the belt pulley mechanism.

Preferably, the hollow rod is connected with the top wall of the box body in a sliding mode through a sliding groove, the bottom end of the hollow rod is communicated with the air cavity, and the top end of the hollow rod is connected with the left end of the heat dissipation box through a hose.

Preferably, the air cavity is arranged in the heat dissipation rod, the air cavity is communicated with the suction hole formed in the inner surface of the heat dissipation rod, and the heat dissipation rod is distributed near the inner wall of the box body in a rectangular frame shape.

Preferably, the sealing sheet is made of elastic materials, the width and the length of the sealing sheet are both larger than those of the sliding groove, and two ends of the sealing sheet are connected to the side wall of the box body in a sliding mode through sliding rings.

Compared with the prior art, the beneficial effects of the utility model are that: the multifunctional energy data acquisition server is driven by a motor, drives an internal heat dissipation structure to move back and forth in a circulating manner in the box body, achieves the purpose of improving the heat dissipation range, can utilize the same motor to drive power, achieves air suction and heat dissipation, and is more reasonable in structural transmission;

1. the transmission shaft is used, so that the rotation of the rotating shaft not only can drive the fan blades to rotate at a high speed to generate a negative pressure adsorption effect, but also can drive the heat dissipation rod to move back and forth in the box body in a circulating manner, and the air suction range and the heat dissipation efficiency are improved;

2. the structure of hollow rod and gasket is used, makes the heat dissipation pole guarantee its inner space and the normal intercommunication of heat dissipation box when the circulation removes, can also guarantee the whole sealing performance of box through the gasket.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is an enlarged cross-sectional view taken along line A of FIG. 1 according to the present invention;

fig. 4 is a side view of the sealing piece of the present invention.

In the figure: 1. a box body; 2. a heat dissipation rod; 3. a slide plate; 4. a slide bar; 5. a screw rod; 6. an electric motor; 7. a rotating shaft; 8. a fan blade; 9. a heat dissipation box; 10. a drive shaft; 11. conical teeth; 12. a belt pulley mechanism; 13. a hollow shaft; 14. a chute; 15. an air cavity; 16. sucking holes; 17. a hose; 18. sealing the sheet; 19. and a slip ring.

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 a technical solution: a multifunctional energy data acquisition server comprises a box body 1, a heat dissipation rod 2, a sliding plate 3, a sliding rod 4, a screw rod 5, a motor 6, a rotating shaft 7, fan blades 8, a heat dissipation box 9, a transmission shaft 10, bevel gears 11, a belt pulley mechanism 12, a hollow rod 13, a sliding chute 14, an air cavity 15, a suction hole 16, a hose 17, a sealing sheet 18 and a sliding ring 19, wherein the heat dissipation rod 2 is installed inside the box body 1, the corners of the heat dissipation rod 2 are connected with the sliding plate 3 and the sliding rod 4 in a sliding mode, the sliding rod 4 is horizontally fixed at the corners inside of the box body 1, the upper right corner of the heat dissipation rod 2 is in threaded connection with the screw rod 5, the motor 6 connected with the rotating shaft 7 is installed on the upper end face of the box body 1, the right end face of the rotating shaft 7 is installed in the heat dissipation box 9, the transmission shaft 10 is installed on the upper end face of, the top wall of the box body 1 is provided with a sliding chute 14.

The top at box 1 is fixed to heat dissipation box 9, and the inside of heat dissipation box 9 is provided with flabellum 8, and flabellum 8 vertical fixation is at the right-hand member of pivot 7, 2 intermeshing's awl teeth 11 and pivot 7 are passed through to the one end of transmission shaft 10 and link to each other, both are 90 contained angles and distribute, and the outer end that the other end passes through belt pulley mechanism 12 and lead screw 5 links to each other, under the meshing drive effect of two intermeshing's awl teeth 11 in figure 1 and figure 2, transmission shaft 10 can be synchronous rotates on the top of box 1, and drive lead screw 5 co-rotation under the drive of belt pulley mechanism 12.

Hollow rod 13 passes through spout 14 and box 1 roof sliding connection, and the bottom and the air cavity 15 of hollow rod 13 are linked together, and the top of hollow rod 13 passes through the left end of hose 17 and heat dissipation box 9 and links to each other, air cavity 15 sets up the inside at heat dissipation rod 2, and air cavity 15 and the suction hole 16 that the internal surface of heat dissipation rod 2 was seted up are linked together, and heat dissipation rod 2 is near the box 1 inner wall that rectangular frame form distributes, under the intercommunication of hose 17 and hollow rod 13, air cavity 15 in fig. 3 and fig. 1 can be in the negative pressure state simultaneously, therefore the high temperature gas in box 1 can be through getting into air cavity 15 by suction hole 16, and discharge from heat dissipation box 9 via hollow rod 13 and hose 17, realize radiating purpose.

The gasket 18 is elastic material, and its width and length all are greater than the width and the length of spout 14 to the both ends of gasket 18 are passed through slip ring 19 sliding connection on the lateral wall of box 1, and gasket 18 can be synchronous slip in the slip ring 19 of both sides, under its self resilience effect, can hug closely the roof of box 1 all the time when being in the horizontality, ensure that it can play and carry out sealed effect to spout 14 from the bottom.

The working principle is as follows: firstly, the motor 6 can be operated, the fan blade 8 in fig. 1 is driven to rotate at a high speed by the rotating shaft 7, so that the left side of the inner space of the heat dissipation box 9 where the fan blade 8 is located is in a negative pressure state at this time, the air chamber 15 in fig. 3 and 1 can be simultaneously in a negative pressure state under the communication action of the hose 17 and the hollow rod 13, so that high-temperature gas in the box 1 can enter the air chamber 15 through the suction hole 16 and be discharged from the heat dissipation box 9 through the hollow rod 13 and the hose 17, the purpose of heat dissipation is achieved, when the rotating shaft 7 is in a rotating state, under the meshing transmission action of the two mutually meshed conical teeth 11 in fig. 1 and 2, the transmission shaft 10 can synchronously rotate at the top end of the box 1 and drive the screw rod 5 to rotate together under the driving of the belt pulley mechanism 12, the surface of the screw rod 5 is in a reciprocating thread structure, so that when the screw rod 5 rotates, the heat dissipation rod 2 can move back, improve the suction range of inhaling hole 16, improve the radiating efficiency to drive the synchronous slip in spout 14 of hollow rod 13, the gasket 18 can be synchronous slip in the sliding ring 19 of both sides this moment, under its self resilience effect, can hug closely the roof of box 1 all the time when being in the horizontality, ensure that it can play and carry out sealed effect to spout 14 from the bottom.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Multifunctional energy data acquisition server, including box (1), slide (3) and motor (6), its characterized in that: the internally mounted of box (1) has radiator-fan beam (2), and the corner of radiator-fan beam (2) passes through slide (3) and slide bar (4) sliding connection to slide bar (4) level is fixed at the inside corner of box (1), the upper right corner department and lead screw (5) threaded connection of radiator-fan beam (2), and the up end of box (1) installs motor (6) of having connected pivot (7), and the right-hand member of pivot (7) is installed in heat dissipation box (9), and the up end of box (1) is rotated through the bearing frame simultaneously and is installed transmission shaft (10), hollow rod (13) are installed to the up end of radiator-fan beam (2), and install gasket (18) on hollow rod (13), spout (14) have been seted up to the roof of box (1).

2. The multifunctional energy data collection server of claim 1, wherein: the heat dissipation box (9) is fixed on the top end of the box body (1), fan blades (8) are arranged inside the heat dissipation box (9), and the fan blades (8) are vertically fixed at the right end of the rotating shaft (7).

3. The multifunctional energy data collection server of claim 1, wherein: one end of the transmission shaft (10) is connected with the rotating shaft (7) through 2 mutually meshed bevel gears (11), the two bevel gears are distributed at an included angle of 90 degrees, and the other end of the transmission shaft is connected with the outer end of the screw rod (5) through a belt pulley mechanism (12).

4. The multifunctional energy data collection server of claim 1, wherein: the hollow rod (13) is connected with the top wall of the box body (1) in a sliding mode through the sliding groove (14), the bottom end of the hollow rod (13) is communicated with the air cavity (15), and the top end of the hollow rod (13) is connected with the left end of the heat dissipation box (9) through the hose (17).

5. The multifunctional energy data collection server of claim 4, wherein: the air cavity (15) is arranged inside the heat dissipation rod (2), the air cavity (15) is communicated with a suction hole (16) formed in the inner surface of the heat dissipation rod (2), and the heat dissipation rod (2) is distributed near the inner wall of the box body (1) in a rectangular frame shape.

6. The multifunctional energy data collection server of claim 1, wherein: the sealing piece (18) is made of elastic materials, the width and the length of the sealing piece are both larger than those of the sliding groove (14), and two ends of the sealing piece (18) are connected to the side wall of the box body (1) in a sliding mode through sliding rings (19).

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