CN213125764U - Heat dissipation device for generator of mixing station - Google Patents

Abstract

The utility model relates to a stirring station generator heat abstractor, it includes the canopy body, the generator sets up in the canopy body, be provided with the radiator on the generator and just to the fan of radiator, the air outlet has been seted up on the canopy body, the air outlet is corresponding to the air-out position of fan, the internal kuppe that is provided with of canopy, kuppe one end and air outlet intercommunication, other end installation fan, the radiator is located the kuppe. This application has the effect that improves the internal generator radiating efficiency of canopy.

Description

Heat dissipation device for generator of mixing station

Technical Field

The application relates to the technical field of mixing stations, in particular to a heat dissipation device for a generator of a mixing station.

Background

In the process of producing concrete in the mixing plant, the use of electric power occupies more energy consumption, and the electric power of a power grid cannot guarantee that no fault occurs, so a generator must be built in the mixing plant, the generator is only temporarily used, and the power of the generator in the mixing plant is larger, so an independent electric room is usually needed to be built for the generator.

The patent document with the publication number of CN207348963U discloses a mute shed for a generator set, which comprises a box body in a rectangular shape, wherein a noise reduction layer is arranged on the inner wall of the box body; a first partition plate and a second partition plate which are vertically arranged are arranged in the box body, the second partition plate and the first partition plate divide the box body into an air inlet cavity, a containing cavity for containing an engine of the generator set, a generator and a water tank and an exhaust cavity, and the first partition plate is arranged on one side of the water tank; an air exhaust through hole is formed in the first partition plate, and an air outlet communicated with the air exhaust cavity is formed in the top cover of the box body; air inlets are respectively formed in two side plates of the air inlet cavity, which are connected with the second partition plate, a first air guide cover is arranged on the inner wall of the side plate, which is positioned at the air inlet, and the outlet end of the first air guide cover is arranged upwards or downwards; and a first through hole is formed in the upper part of the second partition plate corresponding to the air filter air inlet of the engine, and a second through hole is formed in the lower part of the second partition plate corresponding to the air inlet of the generator.

But the engine of the generator set in the structure has insufficient heat dissipation.

SUMMERY OF THE UTILITY MODEL

In order to improve the not enough problem of generator heat dissipation, this application provides a stirring station generator heat abstractor.

The application provides a stirring station generator heat abstractor adopts following technical scheme:

the utility model provides a stirring station generator heat abstractor, includes the canopy body, the generator sets up in the canopy body, be provided with the radiator on the generator and just to the fan of radiator, the air outlet has been seted up on the canopy body, the air outlet is corresponding to the air-out position of fan, the internal kuppe that is provided with of canopy, kuppe one end and air outlet intercommunication, other end installation fan, the radiator is located the kuppe.

Through adopting the above technical scheme, during the use, the generator is provided with the canopy body does, the air outlet has been seted up on the canopy body, the radiator that is located on the generator corresponds with the air outlet, and the fan of the just right position of radiator is bloied to the direction of radiator and air outlet, at the internal kuppe that sets up of canopy simultaneously, the air outlet is connected to kuppe one end, other end installation fan, control the outside that the canopy body was discharged from the air outlet to the hot gas flow through the kuppe, thereby can make the internal temperature of canopy lower, it is higher to cool down the efficiency at the fan to the radiator.

Preferably, a fog nozzle is arranged between the radiator and the fan, the fog nozzle is connected with a water tank, and the water tank is arranged at the top of the shed body.

Through adopting above-mentioned technical scheme, set up the fog shower nozzle between radiator and the fan, fog shower nozzle connects the water tank, and the water smoke of fog shower nozzle spun blows to the radiator under the effect of fan on, evaporates on the radiator to further improve the radiating efficiency to the radiator.

Preferably, the radiator comprises a plurality of shunt tubes, the shunt tubes are arranged along the blowing direction of the fan, and the shunt tubes are bent into an S shape.

Through adopting above-mentioned technical scheme, a plurality of shunt tubes are arranged along the direction of blowing of fan to the shunt tubes are bent into S-shaped, make the air current when the radiator, and the air current contact time of shunt tubes and fan is longer, improves the radiating efficiency to the radiator.

Preferably, be provided with a plurality of heating panels on the shunt tubes, be provided with a heat transfer board between two adjacent heating panels respectively, the heat transfer board rotates to be connected on the heating panel to heat transfer board and heating panel butt, the heat transfer board is connected with drive assembly.

Through adopting above-mentioned technical scheme, the heating panel is connected with the heat transfer board, and the drive assembly is connected to the heat transfer board, and when drive assembly drove the heat transfer board and rotates, can make the contact volume of heat transfer board and air current adjust to can make the heating panel reach the radiating state of ration.

Preferably, the heat adjusting plate and the rotation axis of the heat dissipating plate are horizontally arranged and perpendicular to the outlet direction of the fan.

Through adopting above-mentioned technical scheme, when the rotation axis of heat transfer board and heating panel was perpendicular fan export direction, can more conveniently change the contact volume with the air current when the heat transfer board rotates, the horizontal setting of heat transfer board axis also can make heat transfer board and heating panel keep good contact simultaneously.

Preferably, the driving assembly comprises a driving piece, a worm and a worm wheel, the worm wheel is coaxially fixed on the heat regulating plate, the worm is rotatably connected to the air guide sleeve, the worm is meshed with the worm wheel, and the driving piece is connected with the worm and drives the worm to rotate.

Through adopting above-mentioned technical scheme, when the drive year drove the worm and rotate, the worm drove the worm wheel and rotates, and the worm wheel is connected with the heat transfer board and rotates, can fix the position that adjusts wantonly with the heat transfer board simultaneously under the auto-lock action of worm wheel and worm.

Preferably, the plurality of heat regulating plates are divided into at least two groups, and each group of heat regulating plates is coaxially and fixedly connected with one worm wheel.

Through adopting above-mentioned technical scheme, the heat transfer board falls into two sets ofly at least, and a worm wheel is connected to every group simultaneously, through two sets of worm wheel work alone, can make the heat transfer board wider to the control range of radiator.

Preferably, a protective mesh enclosure is arranged in the air outlet.

Through adopting above-mentioned technical scheme, set up the protection screen panel in the air outlet, make the position of air outlet protect, reduce the damage to the radiator.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the air outlet is formed in the shed body, the radiator positioned on the generator corresponds to the air outlet, the air guide sleeve is arranged in the shed body, one end of the air guide sleeve is connected with the air outlet, the fan is arranged at the other end of the air guide sleeve, and hot air flow is controlled by the air guide sleeve and is discharged to the outside of the shed body from the air outlet, so that the temperature in the shed body can be lower, and the efficiency is higher when the fan cools the radiator;

2. the fog nozzle is arranged between the radiator and the fan and is connected with the water tank, and the water fog sprayed by the fog nozzle is blown onto the radiator under the action of the fan and is evaporated on the radiator, so that the radiating efficiency of the radiator is further improved;

3. through the regulation hot plate divide into two sets ofly at least, a worm wheel is connected to every group simultaneously, through two sets of worm wheel work alone, can make the regulation range of heat regulating plate to the radiator wider.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic view of the mounting structure of the pod and heat sink;

fig. 3 is a schematic view of the internal structure of the pod.

Description of reference numerals: 1. a shed body; 11. an air outlet; 12. a protective mesh enclosure; 2. a generator; 3. a heat sink; 31. a shunt tube; 32. a heat dissipation plate; 33. adjusting a hot plate; 4. a fan; 5. a pod; 6. a mist head; 61. a water pipe; 62. a water tank; 7. a drive assembly; 71. a drive member; 72. a worm; 73. a worm gear.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a heat dissipation device for a generator of a mixing plant, refer to fig. 1 and fig. 2, and comprise a shed body 1, a generator 2 is arranged in the shed body 1, a radiator 3 is connected on the generator 2, the radiator 3 cools the interior of the generator 2, when the radiator 3 is positioned in the shed body 1, in order to enable the heat dissipated by the radiator 3 to be discharged to the exterior of the shed body 1 in time, so that the temperature in the shed body 1 can be further cooled by the radiator 3, a fan 4 is arranged on the generator 2 at a position opposite to the radiator 3, an air outlet 11 is arranged on the side wall of the shed body 1, the air outlet 11 corresponds to the radiator 3, the air outlet direction of the fan 4 passes through the radiator 3 to the air outlet 11, so that the heat dissipated by the fan 4 is discharged from the air outlet 11 in time, thereby reducing the heat dissipated by the radiator 3 to be retained in the shed body 1, a protective mesh, the fan 4 of the heat sink 3 is protected.

Referring to fig. 1 and 2, a dome 5 is disposed between a fan 4 and an air outlet 11, a heat sink 3 is located in the dome 5, one end of the dome 5 is connected to the air outlet 11, and the other end of the dome 5 is connected to the fan 4, an air flow blown into the dome 5 by the fan 4 moves along the dome 5 and flows out from the air outlet 11, and meanwhile, heat dissipated by the heat sink 3 flows out from the air outlet 11 along with the air flow in the dome 5, thereby further reducing the heat dissipated by the heat sink 3 from being diffused into the booth body 1 through the flow of the air flow. A fog nozzle 6 is arranged between the fan 4 and the radiator 3, the fog nozzle 6 is arranged downwards, the fog nozzle 6 is positioned at the upper part of the radiator 3, the fog nozzle 6 is connected with a water pipe 61, one end of the water pipe 61 is connected with the fog nozzle 6, the other end is connected with a water tank 62, and the water tank 62 is arranged at the top of the shed body 1. When the heat dissipation efficiency of the radiator 3 needs to be increased, the mist spray heads 6 spray water mist, the fan 4 enables the mist spray heads 6 to spray water mist to move onto the radiator 3, the heat of the radiator 3 evaporates the water mist contacting with the radiator 3 further, the heat in the radiator 3 is diffused through the evaporation of the water mist, and therefore the radiator 3 can be further cooled rapidly.

Referring to fig. 2 and 3, the heat sink 3 includes a plurality of branch pipes 31, the branch pipes 31 are S-shaped, and the plurality of branch pipes 31 are uniformly arranged along the blowing direction of the fan 4, a plurality of heat dissipation plates 32 are disposed on the uniformly arranged branch pipes 31, the heat dissipation plates 32 are disposed parallel to the arrangement direction of the branch pipes 31, the heat dissipation plates 32 are vertically disposed, each branch pipe 31 penetrates the heat dissipation plate 32 parallel to the heat dissipation plate 32, and the heat dissipation plates 32 and the branch pipes 31 are in contact with each other, so that the heat of the branch pipes 31 is effectively transferred to the heat dissipation plates 32. The plurality of heat dissipation plates 32 are divided into at least two groups, the two groups of heat dissipation plates 32 are arranged up and down, a heat regulation plate 33 is arranged between two adjacent heat dissipation plates 32 in the same group, the heat regulation plate 33 is obliquely arranged with the blowing direction of the fan 4, the oblique direction of the heat regulation plate 33 is downward inclined along the blowing direction of the fan 4, the airflow blown out by the fan 4 moves along the heat regulation plate 33 under the action of the heat regulation plate 33, the heat regulation plate 33 is abutted against the heat dissipation plates 32, the heat between the heat regulation plate 33 and the heat dissipation plates 32 is transferred to the heat regulation plate 33 from the heat dissipation plates 32, and the airflow with water mist blown out by the fan 4 moves along the heat regulation plate 33, so that the contact time of the airflow and the heat regulation plate 33 is longer.

Referring to the section 3, in order to adjust the contact amount between the heat adjusting plate 33 and the airflow blown by the fan 4, the heat adjusting plate 33 is rotatably connected to the heat dissipating plate 32, the rotation axis between the heat adjusting plate 33 and the heat dissipating plate 32 is horizontal and perpendicular to the direction of the airflow blown by the fan 4, the drive assembly 7 is connected to the heat adjusting plate 33, the drive assembly 7 drives the heat adjusting plate 33 to rotate, and after the heat adjusting plate 33 rotates, the angle of the airflow blown by the heat adjusting plate 33 and the fan 4 can be adjusted, so that the airflow intercepted by the heat adjusting plate 33 in the direction of the airflow blown by the fan 4 is relatively large.

Referring to fig. 3, the driving assembly 7 includes a driving member 71, a worm 72 and a worm wheel 73, the driving member 71 may be a servo motor, the worm 72 is coaxially and fixedly connected with an output shaft of the driving member 71, the driving member 71 is fixed on the pod 5, the worm wheel 73 is fixedly connected with the heat regulating plate 33, a center line of the worm wheel 73 and a rotation axis of the heat regulating plate 33 on the heat radiating plate 32 are arranged to coincide, all the heat regulating plates 33 in the same group are fixedly connected with one worm wheel 73, and the worm 72 is engaged with the worm wheel 73.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a stirring station generator heat abstractor, includes the canopy body (1), generator (2) set up in the canopy body (1), be provided with radiator (3) on generator (2) and just to fan (4) of radiator (3), its characterized in that: the wind-guiding shed is characterized in that a wind outlet (11) is formed in the shed body (1), the wind outlet (11) corresponds to the wind outlet position of the fan (4), a wind-guiding cover (5) is arranged in the shed body (1), one end of the wind-guiding cover (5) is communicated with the wind outlet (11), the fan (4) is installed at the other end of the wind-guiding cover, and the radiator (3) is located in the wind-guiding cover (5).

2. The mixing station generator heat sink of claim 1, wherein: a fog nozzle (6) is arranged between the radiator (3) and the fan (4), the fog nozzle (6) is connected with a water tank (62), and the water tank (62) is installed at the top of the shed body (1).

3. The mixing station generator heat sink of claim 2, wherein: the radiator (3) comprises a plurality of shunt tubes (31), the shunt tubes (31) are arranged along the blowing direction of the fan (4), and the shunt tubes (31) are bent into an S shape.

4. The mixing station generator heat sink of claim 3, wherein: be provided with a plurality of heating panels (32) on shunt tubes (31), be provided with one heat transfer board (33) between two adjacent heating panels (32) respectively, heat transfer board (33) rotate to be connected on heating panel (32) to heat transfer board (33) and heating panel (32) butt, heat transfer board (33) are connected with drive assembly (7).

5. The mixing station generator heat sink of claim 4, wherein: the rotation axes of the heat regulating plate (33) and the heat radiating plate (32) are horizontally arranged and are vertical to the outlet direction of the fan (4).

6. A mixing station generator heat sink according to claim 4 or 5, characterised in that: drive assembly (7) are including driving piece (71), worm (72) and worm wheel (73), worm wheel (73) coaxial fixation is on heat transfer board (33), worm (72) rotate to be connected on kuppe (5), worm (72) and worm wheel (73) meshing, driving piece (71) are connected with worm (72) and drive worm (72) and rotate.

7. The mixing station generator heat sink of claim 6, wherein: the heat regulating plates (33) are at least divided into two groups, and each group of heat regulating plates (33) is coaxially and fixedly connected with a worm wheel (73).

8. The mixing station generator heat sink of claim 1, wherein: and a protective mesh enclosure (12) is arranged in the air outlet (11).

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