CN211240601U - Electric wire netting distributing type collection analogue means - Google Patents

Abstract

The utility model discloses a distributed acquisition simulation device for an electric network, which comprises an outer shell, a heat dissipation plate, a spiral dust guide device and a cleaning blade, wherein the heat dissipation plate is fixedly arranged on one side of the inner wall of the outer shell, which is positioned on a heat dissipation cavity, the heat dissipation plate is fixedly provided with a plurality of heat dissipation holes, the heat dissipation plate is fixedly welded with a fixed block close to the side wall of the heat dissipation cavity, one side of the cleaning blade close to the heat dissipation plate is fixedly glued with a hard brush, the fixed block is away from the heat dissipation plate, which is fixedly welded with a driven wheel, the side surface of the driven wheel is movably sleeved with a conveyor belt, the inner wall of the outer shell is fixedly welded with a dust collection shell below the heat dissipation plate, the inner wall of the outer shell is fixedly welded with the dust guide shell below the dust collection shell, the spiral dust guide device is fixedly arranged inside, and simultaneously, the good heat dissipation effect of the device is ensured.

Description

Electric wire netting distributing type collection analogue means

Technical Field

The utility model relates to a relevant technical field of electric wire netting simulation specifically is an electric wire netting distributing type collection analogue means.

Background

The distributed power grid is a novel power supply system completely different from the traditional power supply mode, and is a small modular environment-compatible independent power supply which is distributed nearby users in a distributed mode and has the power generation power of thousands of watts to fifty megawatts in order to meet the needs of specific users or support the economic operation of the existing power distribution network; it is typically located near the user and includes bio-energy generation, gas turbines, solar and photovoltaic cells, fuel cells, wind energy generation, micro-computer gas turbines, internal combustion engines, and storage control technologies.

However, the existing power grid distributed acquisition simulation device has the following disadvantages: when the device is internally cooled, serious dust is easily attached to the heat dissipation outlet, and then the heat dissipation holes are blocked, so that the heat dissipation effect is reduced, the heat conduction performance is deteriorated, bad sanitation phenomenon inside the device is caused, and the attached dust easily drops or enters the simulator to influence the circuit to a certain degree.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simulation device is gathered to electric wire netting distributing type to when solving the current electric wire netting distributing type collection simulation device use of mentioning in the above-mentioned background art, when to the inside radiating of device, cause serious dust in heat dissipation exit to adhere to easily, and then block up the louvre, make the radiating effect reduce, the heat conductivility worsens, still cause the inside bad sanitary phenomenon of device, during the adnexed dust dropped or got into the analog instrument very easily, lead to the fact the problem of certain influence to the circuit.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a power grid distributing type collection analogue means, leads dirt device and clearance fan blade including shell body, heating panel, spiral, the inside fixed heat dissipation chamber of having seted up of shell body, the fixed one side that is located the heat dissipation chamber of seting up at shell body inner wall of the heating panel, a plurality of louvre has been seted up to the heating panel is fixed, the heating panel is close to the fixed welding of a heat dissipation chamber lateral wall and has the fixed block, the fixed welding of clearance fan blade is at the side surface of fixed block, one side fixed glue that the clearance fan blade is close to the heating panel has the scrubbing brush, the fixed welding of a heating panel lateral wall is kept away from to the fixed block has from the driving wheel, from the activity of driving wheel side surface cup jointed the conveyer belt.

Preferably, the fixed welding of outer casing inner wall position in heating panel below has a collection dirt casing, the inside fixed dust collection chamber of having seted up of collection dirt casing, outer casing inner wall position in collection dirt casing below fixed welding has a dust guide housing, the inside fixed mounting of dust guide housing has the spiral to lead dirt device, collection dirt casing communicates with each other with dust guide housing is inside.

Preferably, outer casing lateral wall lower extreme fixed mounting has first motor case, the inside fixed mounting of first motor case has first motor, the fixed welding of spiral dust guide's one end is in the one end of first motor.

Preferably, a third motor is fixedly installed at the bottom end inside the outer machine shell, a second conveyor belt is movably sleeved at one end of the third motor, a second driving wheel is fixedly sleeved at the other end of the second conveyor belt, and a cooling fan is fixedly welded at one side, close to the cooling plate, of the second driving wheel.

Preferably, a dust collecting box is fixedly welded at the bottom end of the outer side of the outer casing body and is used for collecting the removed dust and dust.

The utility model provides a power grid distributed acquisition simulation device possesses following beneficial effect:

through having glued the scrubbing brush on clearance flabellum surface, realize clearing up the attached dust in heat dissipation exit, outside leading out the device by the spiral again, guaranteed the inside cleanness of device, avoided the dust to get into and produce the influence to the circuit in inseparable electronic instrument, guarantee the good radiating effect of device simultaneously, avoid the dust to adhere to in a large number and block up the thermovent, guarantee good thermal diffusivity.

Drawings

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

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

fig. 3 is a schematic view of a part a of fig. 1.

In the figure: 1. an outer housing; 2. a heat dissipation cavity; 3. a heat dissipation plate; 4. heat dissipation holes; 5. a dust collection chamber; 6. a spiral dust guide device; 7. a first motor case; 8. a first motor; 9. a dust collecting housing; 10. a dust guide shell; 11. a dust collection box; 12. cleaning fan blades; 13. a conveyor belt; 14. a second motor; 15. a fixed block; 16. (ii) a 17. A scrubbing brush; 18. a third motor; 19. a heat radiation fan; 20. a second transmission wheel; 21. a second conveyor belt.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-3, the utility model provides a technical solution: a distributed power grid acquisition simulation device comprises a shell 1, a heat dissipation plate 3, a spiral dust guide device 6 and a cleaning blade 12, wherein a heat dissipation cavity 2 is fixedly formed in the shell 1, the heat dissipation cavity 2 provides an installation space for the heat dissipation device of the device, the heat dissipation plate 3 is fixedly formed in one side, located on the heat dissipation cavity 2, of the inner wall of the shell 1, a plurality of heat dissipation holes 4 are fixedly formed in the heat dissipation plate 3, the heat dissipation plate 3 is fixedly welded with a fixing block 15 close to one side wall of the heat dissipation cavity 2, the cleaning blade 12 is fixedly welded on the side surface of the fixing block 15, the cleaning blade 12 is controlled to rotate by a second motor 14, a hard brush 17 is adhered to one side, close to the heat dissipation plate 3, of the cleaning blade 12, the hard brush 17 is in matched contact with the heat dissipation plate 3, the cleaning blade 12 rotates to drive the hard brush 17 to move, the effect of cleaning the heat, the side surface of the driven wheel 16 is movably sleeved with a conveying belt 13, a second motor 14 is fixedly installed inside the outer shell body 1, one end of the second motor 14 is movably sleeved with the conveying belt 13, the second motor 14 is started, the second motor 14 drives the conveying belt 13 to transmit, the driven wheel 16 is driven to rotate, and finally the effect of cleaning the heat dissipation plate 3 is achieved.

The inner wall of the outer shell body 1 is fixedly welded below the heat dissipation plate 3, a dust collection shell body 9 is fixedly arranged in the dust collection shell body 9, a dust guide shell body 10 is fixedly welded below the dust collection shell body 9 in the inner wall of the outer shell body 1, a spiral dust guide device 6 is fixedly arranged in the dust guide shell body 10, the dust collection shell body 9 is communicated with the interior of the dust guide shell body 10, a first motor box 7 is fixedly arranged at the lower end of the side wall of the outer shell body 1, a first motor 8 is fixedly arranged in the first motor box 7, one end of the spiral dust guide device 6 is fixedly welded at one end of the first motor 8, the first motor 8 is started, so that the spiral dust guide device 6 rotates to spirally guide out dust in the dust guide shell body 10, a third motor 18 is fixedly arranged at the bottom end in the outer shell body 1, and a second conveyor belt 21 is movably sleeved at one end of the third, the other end of the second conveyor belt 21 is fixedly sleeved with a second transmission wheel 20, one side, close to the heat dissipation plate 3, of the second transmission wheel 20 is fixedly welded with a heat dissipation fan 19, a third motor 18 is started, the second conveyor belt 21 is driven to transmit, the heat dissipation fan 19 is finally driven to rotate, the effect of heat dissipation inside the device is achieved, a dust collection box 11 is fixedly welded at the bottom end of the outer side of the outer shell body 1 and used for collecting removed dust and dust, and the dust guided out by the spiral dust guide device 6 finally falls into the dust collection box 11.

It should be noted that, when the power grid distributed acquisition simulation device works, the third motor 18 is started to drive the second conveyor belt 21 to transmit, and finally the cooling fan 19 is driven to rotate, so as to realize the effect of cooling in the device, while the cooling fan 19 blows dust to the inner surface of the cooling plate 3, the second motor 14 is started, the second motor 14 drives the conveyor belt 13 to transmit, and further drives the driven wheel 16 to rotate, the cleaning fan blade 12 rotates to drive the hard brush 17 to move, and finally the effect of cleaning the cooling plate 3 is realized, the cleaned dust falls into the dust guide shell 10 through the dust collection cavity 5, the first motor 8 is started, so that the spiral dust guide device 6 rotates, and further the dust in the dust guide shell 10 is spirally guided out, the dust guided out through the spiral dust guide device 6 finally falls into the dust collection box 11, and the device realizes the cleaning of dust accumulated in the machine due to the heat dissipation of the fan, the interior of the machine is kept clean, the blocking of the heat dissipation holes is avoided, and a good heat dissipation effect is ensured.

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 (5)

1. The utility model provides a simulation device is gathered to electric wire netting distributing type which characterized in that: the dust guide device comprises an outer casing (1), a heat dissipation plate (3), a spiral dust guide device (6) and cleaning blades (12), wherein a heat dissipation cavity (2) is fixedly formed in the outer casing (1), the heat dissipation plate (3) is fixedly formed in one side, located in the heat dissipation cavity (2), of the inner wall of the outer casing (1), a plurality of heat dissipation holes (4) are fixedly formed in the heat dissipation plate (3), the heat dissipation plate (3) is close to one side wall of the heat dissipation cavity (2) and fixedly welded with a fixing block (15), the cleaning blades (12) are fixedly welded on the side surface of the fixing block (15), one side, close to the heat dissipation plate (3), of the cleaning blades (12) is fixedly glued with a hard brush (17), the fixing block (15) is far away from one side wall of the heat dissipation plate (3) and fixedly welded with a driven wheel (, the outer casing (1) is internally and fixedly provided with a second motor (14), and one end of the second motor (14) is movably sleeved with the conveyor belt (13).

2. The distributed acquisition simulation device for the power grid according to claim 1, wherein: the dust collecting device is characterized in that a dust collecting shell (9) is fixedly welded on the inner wall of the outer shell (1) below the heat dissipation plate (3), a dust collecting cavity (5) is fixedly formed in the inner wall of the dust collecting shell (9), a dust guiding shell (10) is fixedly welded on the inner wall of the outer shell (1) below the dust collecting shell (9), a spiral dust guiding device (6) is fixedly installed in the dust guiding shell (10), and the dust collecting shell (9) is communicated with the inside of the dust guiding shell (10).

3. The distributed acquisition simulation device for the power grid according to claim 2, wherein: the outer casing body (1) lateral wall lower extreme fixed mounting has first motor case (7), the inside fixed mounting of first motor case (7) has first motor (8), the fixed welding of spiral dust guide device (6) one end is in the one end of first motor (8).

4. The distributed acquisition simulation device for the power grid according to claim 3, wherein: the heat dissipation device is characterized in that a third motor (18) is fixedly mounted at the bottom end inside the outer casing body (1), a second conveyor belt (21) is movably sleeved at one end of the third motor (18), a second transmission wheel (20) is fixedly sleeved at the other end of the second conveyor belt (21), and a heat dissipation fan (19) is fixedly welded at one side, close to the heat dissipation plate (3), of the second transmission wheel (20).

5. The distributed acquisition simulation device for the power grid according to claim 4, wherein: and a dust collection box (11) is fixedly welded at the bottom end of the outer side of the outer shell (1) and is used for collecting the removed dust and dust.

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