CN209469557U - A kind of Whole oiless idling press cooler fan assembly - Google Patents

Abstract

The utility model provides a kind of Whole oiless idling press cooler fan assembly.The Whole oiless idling press cooler fan assembly includes processing case, heat dissipation tank, extraction fan, magnetism servo-electric motor water-cooling, cooling mechanism, driving box, one end of the processing case is equipped with heat dissipation tank, other end installation driving box, the inside of the heat dissipation tank is equipped with the magnetism servo-electric motor water-cooling, extraction fan is installed in the side of the magnetism servo-electric motor water-cooling, and the magnetism servo-electric motor water-cooling and the cooling mechanism are interconnected.Whole oiless idling press cooler fan assembly provided by the utility model, cooling duct is provided in the inside top and interior bottom portion of processing case, and two cooling ducts are connected to driving box, the wind that extraction fan is pumped into passes sequentially through the first cooling duct, diversion chamber and the second cooling duct, fast cooling can be carried out from the top and bottom of processing case, and can also be cooled down simultaneously to driving motor；The wind of suction can be precooled by magnetism servo-electric motor water-cooling.

Description

A kind of Whole oiless idling press cooler fan assembly

Technical field

The utility model relates to air-pressure equipment technical fields more particularly to a kind of Whole oiless idling press cooler fan to fill It sets.

Background technique

Oilless air compressor full name is oil-free air compressor, is the main body in compressed air source unit, it is by the machinery of prime mover It can be converted into the device of gas pressure energy, be the pressure generator of compressed air；The air compressor machine of oil-free, it is not to use to have Oil lubrication, but resin material is used to lubricate, so oil-containing is not known as Whole oiless idling press to the gas being finally discharged.

Air compressor machine at work, needs to introduce extraneous cold wind to cool down, however current aeration structure distribution face compared with It is small, cause the heat dissipation effect for machine bad, and the cooling for motor can not be had both.

Therefore, it is necessary to provide a kind of new Whole oiless idling press cooler fan assembly solution above-mentioned technical problem.

Utility model content

It is cold that the technical issues of the utility model solves is to provide the easy Whole oiless idling press of a kind of good cooling results, circulation But device fan assembly.

In order to solve the above technical problems, Whole oiless idling press cooler fan assembly provided by the utility model includes: to add The inside top of work case, the processing case is provided with the first cooling duct, and one end of first cooling duct is communicated with first Communication port；The other end of first cooling duct is communicated with the second communication port；The interior bottom portion of the processing case is provided with second Cooling duct, and the other end of second cooling duct is communicated with third communication port；The third communication port and described second Communication port is interconnected；One end of second cooling duct is connected to the second discharge pipe；Heat dissipation tank, the heat dissipation tank are set to institute One end of processing case is stated, and the magnetism servo-electric motor water-cooling of enclosed construction is installed in the middle part of the inside of the heat dissipation tank；The magnetism servo-electric motor water-cooling Side is equipped with extraction fan, and the extraction fan is wind to be pumped into the magnetism servo-electric motor water-cooling；The magnetism servo-electric motor water-cooling is to right Wind cools down；The other side of the magnetism servo-electric motor water-cooling is communicated with exhaust air box, and the top of the exhaust air box and first circulation Mouth connection；Driving box, the driving box is installed on the other end of the processing case, and the inside of the driving box is provided with water conservancy diversion Room, the diversion chamber are connected to second communication port, the third communication port.

Preferably, screw rod, and top connection at the center of the processing case are installed at the inside center of the processing case There is the first blast pipe；Bottom is communicated with the first discharge pipe at the center of the processing case.

Preferably, the inside of the driving box is equipped with driving motor, and the driving motor is to drive the screw rod Rotation.

Preferably, the magnetism servo-electric motor water-cooling includes the first fixed plate, the second blast pipe, guide duct, third discharge pipe and the Two fixed plates, and first fixed plate, second fixed plate are vertical at the inside of the heat dissipation tank；Described first is fixed The inside of plate, which is run through, the second blast pipe；There are several guide ducts in the second blast pipe communicating pipe；The guide duct it is another End is connected to third discharge pipe, and the third discharge pipe is through second fixed plate；The third discharge pipe is connected to The diversion chamber.

Preferably, the width of the guide duct is less than the width of first fixed plate, and the guide duct is from top to bottom Spacing setting；The surface of each guide duct is equipped with the first heat exchange fin.

Preferably, the magnetism servo-electric motor water-cooling is communicated with cooling mechanism, and the cooling mechanism includes box body, cooling fin, second Heat exchange fin, drawing liquid pump, drinking-water pipe and drainpipe；The drinking-water pipe is inserted into the inside top of the magnetism servo-electric motor water-cooling, described Drainpipe is inserted into the interior bottom portion of the magnetism servo-electric motor water-cooling；The drinking-water pipe is connected to the box body by the drawing liquid pump, and The inside of the box body is equipped with the cooling fin；The second heat exchange fin is distributed in the surface of the box body.

Preferably, the inside of the diversion chamber is equipped with auxiliary blade, and the auxiliary blade is installed on the screw rod back The other end from the driving motor.

Compared with the relevant technologies, Whole oiless idling press cooler fan assembly provided by the utility model has and has as follows Beneficial effect:

The utility model provides a kind of Whole oiless idling press cooler fan assembly, inside top and inside in processing case Bottom is provided with cooling duct, and two cooling ducts are connected to driving box, and the wind that extraction fan is pumped into is successively By the first cooling duct, diversion chamber and the second cooling duct, fast cooling can be carried out from the top and bottom of processing case, And it can also cool down simultaneously to driving motor；The wind of suction can be precooled by magnetism servo-electric motor water-cooling, so that cooling Gas flow temperature is lower, and cooling effect is more preferable.

Detailed description of the invention

Fig. 1 is a kind of structure of preferred embodiment of Whole oiless idling press cooler fan assembly provided by the utility model Schematic diagram；

Fig. 2 is cooling mechanism structural schematic diagram shown in FIG. 1；

Fig. 3 is magnetism servo-electric motor water-cooling shown in Fig. 2 and cooling mechanism attachment structure schematic diagram；

Fig. 4 is enlarged structure schematic diagram at A shown in FIG. 1.

Figure label: 1, case is processed, the 11, first blast pipe, the 12, first discharge pipe, the 13, first communication port, 14, first is cold But channel, the 15, second communication port, 16, third communication port, the 17, second cooling duct, the 18, second discharge pipe, 2, heat dissipation tank, 21, Exhaust air box, 3, extraction fan, 4, magnetism servo-electric motor water-cooling, the 41, first fixed plate, the 42, second blast pipe, 43, guide duct, the 431, first heat exchange Fin, 44, third discharge pipe, the 45, second fixed plate, 5, cooling mechanism, 51, box body, 52, cooling fin, the 53, second heat exchange wing Piece, 54, drawing liquid pump, 55, drinking-water pipe, 56, drainpipe, 6, driving box, 61, diversion chamber, 7, screw rod, 8, driving motor, 9, auxiliary Blade.

Specific embodiment

The utility model is described in further detail with embodiment with reference to the accompanying drawing.

Please refer to Fig. 1, Fig. 2, Fig. 3 and Fig. 4, wherein Fig. 1 is that Whole oiless idling press provided by the utility model is cold But the structural schematic diagram of a kind of preferred embodiment of device fan assembly；Fig. 2 is cooling mechanism structural schematic diagram shown in FIG. 1；Fig. 3 For magnetism servo-electric motor water-cooling shown in Fig. 2 and cooling mechanism attachment structure schematic diagram；Fig. 4 is enlarged structure schematic diagram at A shown in FIG. 1. Whole oiless idling press cooler fan assembly include: processing case 1, heat dissipation tank 2, extraction fan 3, magnetism servo-electric motor water-cooling 4, cooling mechanism 5 with And driving box 6, one end of the processing case 1 are equipped with heat dissipation tank 2, other end installation driving box 6, the inside of the heat dissipation tank 2 The magnetism servo-electric motor water-cooling 4 is installed, extraction fan 3, the magnetism servo-electric motor water-cooling 4 and the heat dissipation machine are installed in the side of the magnetism servo-electric motor water-cooling 4 Structure 5 is interconnected.

In the specific implementation process, as shown in Figure 1, processing case 1, it is cooling that the inside top of the processing case 1 is provided with first Channel 14, and one end of first cooling duct 14 is communicated with the first communication port 13；First cooling duct 14 it is another End is communicated with the second communication port 15；The interior bottom portion of the processing case 1 is provided with the second cooling duct 17, and described second is cooling logical The other end in road 17 is communicated with third communication port 16；The third communication port 16 is interconnected with second communication port 15；Institute The one end for stating the second cooling duct 17 is connected to the second discharge pipe 18；Screw rod 7 is installed at the inside center of the processing case 1, And top is communicated with the first blast pipe 11 at the center of the processing case 1；Bottom is communicated with first at the center of the processing case 1 Discharge pipe 12；The wind sucked in heat dissipation tank 2 is by passing through the first communication port 13, the first cooling duct 14, the second communication port 15, the Three communication ports 16, the second cooling duct 17 and the second discharge pipe 18 are capable of forming cooling duct, and cooling duct can be to processing It radiates the inside of case 1.

In the specific implementation process, as shown in figure 3, heat dissipation tank 2, the heat dissipation tank 2 are set to one end of the processing case 1, And the magnetism servo-electric motor water-cooling 4 of enclosed construction is installed in the middle part of the inside of the heat dissipation tank 2；The side of the magnetism servo-electric motor water-cooling 4 is equipped with pumping Fan 3, and the extraction fan 3 is wind to be pumped into the magnetism servo-electric motor water-cooling 4；The magnetism servo-electric motor water-cooling 4 is to drop wind Temperature；The other side of the magnetism servo-electric motor water-cooling 4 is communicated with exhaust air box 21, and the top of the exhaust air box 21 and first communication port 13 Connection；The magnetism servo-electric motor water-cooling 4 includes the first fixed plate 41, the second blast pipe 42, guide duct 43, third discharge pipe 44 and second Fixed plate 45, and first fixed plate 41, second fixed plate 45 are vertical at the inside of the heat dissipation tank 2；Described The inside of one fixed plate 41, which is run through, the second blast pipe 42；There are several guide ducts 43 in 42 communicating pipe of second blast pipe；Institute The other end for stating guide duct 43 is connected to third discharge pipe 44, and the third discharge pipe 44 is through second fixed plate 45；The third discharge pipe 44 is connected to the diversion chamber 61；After extraneous wind is pumped by extraction fan 3, each lead can be entered In air hose 43, cooling water is filled between the first fixed plate 41, the second fixed plate 45, wind when by each guide duct 43, The water that can be cooled heat absorption.

In the specific implementation process, as shown in Figure 1, driving box 6, the driving box 6 are installed on the another of the processing case 1 End, and the inside of the driving box 6 is provided with diversion chamber 61, the diversion chamber 61 and second communication port 15, the third stream Port 16 is connected to；The inside of the driving box 6 is equipped with driving motor 8, and the driving motor 8 is to drive the screw rod 7 Rotation；By driving motor 8 to drive screw rod 7 to rotate.

In the specific implementation process, as shown in figure 3, the width of the guide duct 43 is less than the width of first fixed plate 41 Degree, and from top to bottom spacing is arranged the guide duct 43；The surface of each guide duct 43 is equipped with the first heat exchange fin 431；The setting of first heat exchange fin 431 is capable of increasing the contact surface of guide duct 43 Yu water, to further increase cooling water Cooling effect.

In the specific implementation process, as shown in Fig. 2, the magnetism servo-electric motor water-cooling 4 is communicated with cooling mechanism 5, and the heat dissipation machine Structure 5 includes box body 51, cooling fin 52, the second heat exchange fin 53, drawing liquid pump 54, drinking-water pipe 55 and drainpipe 56；It is described to draw water Pipe 55 is inserted into the inside top of the magnetism servo-electric motor water-cooling 4, and the drainpipe 56 is inserted into the interior bottom portion of the magnetism servo-electric motor water-cooling 4； The drinking-water pipe 55 is connected to the box body 51 by the drawing liquid pump 54, and the inside of the box body 51 be equipped with it is cellular The cooling fin 52；The second heat exchange fin 53 is distributed in the surface of the box body 51；It can be by hot water circuit by cooling mechanism 5 It draws water and cooling down.

In the specific implementation process, as shown in figure 4, the inside of the diversion chamber 61 is equipped with auxiliary blade 9, and it is described auxiliary Blade 9 is helped to be installed on the other end that the screw rod 7 deviates from the driving motor 8；Wind in diversion chamber 61 will drive auxiliary blade 9 To which auxiliary threaded rod 7 rotates, the consumption of electric energy is reduced.

The working principle of Whole oiless idling press cooler fan assembly provided by the utility model is as follows:

In processing, driving motor 8 drives screw rod 7 to rotate, and the wind entered to the first blast pipe 11 compresses, then high Wind is pressed to be discharged by the first discharge pipe 12；External wind is pumped by extraction fan 3, and then wind is entered and distributed by the second blast pipe 42 To in each guide duct 43, wind is when passing through each guide duct 43, since guide duct 43 is immersed in cooling water, then, wind meeting Cooled water cooling, then cooled wind is expelled in exhaust air box 21 by third discharge pipe 44, and wind will drive auxiliary blade 9 Rotation, auxiliary blade 9 can assist that screw rod 7 is driven to rotate；Then wind from the top of exhaust air box 21 be expelled to the first communication port 13, In first cooling duct 14, wind can absorb the heat in processing case 1 when by the first cooling duct 14, realize that cooling dissipates Then heat is expelled in diversion chamber 61 by the second communication port 15, is cooled down to driving motor 8, then pass through third communication port 16 are expelled in the second cooling duct 17, realize the dual cooling in top, bottom for processing case 1, and last wind goes out by second Air hose 18 is discharged；Top layer hot water in magnetism servo-electric motor water-cooling 4 can be drawn to honeycomb by drinking-water pipe 55 under the action of drawing liquid pump 54 In the cooling fin 52 of shape, it is expelled in magnetism servo-electric motor water-cooling 4 by drainpipe 56 again after cooling, the second heat exchange fin 53 can be accelerated to dissipate The radiating rate of backing 52.

Compared with the relevant technologies, Whole oiless idling press cooler fan assembly provided by the utility model has and has as follows Beneficial effect:

The utility model provides a kind of Whole oiless idling press cooler fan assembly, in the processing inside top of case 1 and interior Portion bottom is provided with cooling duct, and two cooling ducts are connected to driving box 6, the wind that extraction fan 3 is pumped into Pass sequentially through the first cooling duct 14, diversion chamber 61 and the second cooling duct 17, can from processing case 1 top and bottom into Row fast cooling, and can also cool down simultaneously to driving motor 8；The wind of suction can be carried out by magnetism servo-electric motor water-cooling 4 pre- Cooling, so that cooling gas flow temperature is lower, cooling effect is more preferable.

The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all Equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, is applied directly or indirectly in Other relevant technical fields, are also included in the patent protection scope of the utility model.

Claims (7)

1. a kind of Whole oiless idling press cooler fan assembly characterized by comprising

It processes case (1), the inside top of processing case (1) is provided with the first cooling duct (14), and first cooling duct (14) one end is communicated with the first communication port (13)；The other end of first cooling duct (14) is communicated with the second communication port (15)；The interior bottom portion of processing case (1) is provided with the second cooling duct (17), and second cooling duct (17) is another End is communicated with third communication port (16)；The third communication port (16) and second communication port (15) are interconnected；Described One end of two cooling ducts (17) is connected to the second discharge pipe (18)；

Heat dissipation tank (2), the heat dissipation tank (2) are set to one end of processing case (1), and in the middle part of the inside of the heat dissipation tank (2) The magnetism servo-electric motor water-cooling (4) of enclosed construction is installed；The side of the magnetism servo-electric motor water-cooling (4) is equipped with extraction fan (3), and the extraction fan (3) wind to be pumped into the magnetism servo-electric motor water-cooling (4)；The magnetism servo-electric motor water-cooling (4) is to cool down to wind；The water cooling unit The other side of structure (4) is communicated with exhaust air box (21), and the top of the exhaust air box (21) is connected to first communication port (13)；

Driving box (6), the driving box (6) are installed on the other end of processing case (1), and the inside of the driving box (6) It is provided with diversion chamber (61), the diversion chamber (61) is connected to second communication port (15), the third communication port (16).

2. Whole oiless idling press cooler fan assembly according to claim 1, which is characterized in that the processing case (1) Inside center at be equipped with screw rod (7), and it is described processing case (1) center at top be communicated with the first blast pipe (11)；Institute It states bottom at the center of processing case (1) and is communicated with the first discharge pipe (12).

3. Whole oiless idling press cooler fan assembly according to claim 2, which is characterized in that the driving box (6) Inside be equipped with driving motor (8), and the driving motor (8) to drive the screw rod (7) rotate.

4. Whole oiless idling press cooler fan assembly according to claim 1, which is characterized in that the magnetism servo-electric motor water-cooling It (4) include the first fixed plate (41), the second blast pipe (42), guide duct (43), third discharge pipe (44) and the second fixed plate (45), and first fixed plate (41), second fixed plate (45) are vertical at the inside of the heat dissipation tank (2)；It is described The inside of first fixed plate (41), which is run through, the second blast pipe (42)；There are several wind-guidings in second blast pipe (42) communicating pipe It manages (43)；The other end of the guide duct (43) is connected to third discharge pipe (44), and the third discharge pipe (44) through Second fixed plate (45)；The third discharge pipe (44) is connected to the diversion chamber (61).

5. Whole oiless idling press cooler fan assembly according to claim 4, which is characterized in that the guide duct (43) Width be less than first fixed plate (41) width, and the guide duct (43) from top to bottom spacing be arranged；It is each described The surface of guide duct (43) is equipped with the first heat exchange fin (431).

6. Whole oiless idling press cooler fan assembly according to claim 1, which is characterized in that the magnetism servo-electric motor water-cooling (4) it is communicated with cooling mechanism (5), and the cooling mechanism (5) includes box body (51), cooling fin (52), the second heat exchange fin (53), drawing liquid pump (54), drinking-water pipe (55) and drainpipe (56)；The drinking-water pipe (55) is inserted into the magnetism servo-electric motor water-cooling (4) Inside top, the drainpipe (56) is inserted into the interior bottom portion of the magnetism servo-electric motor water-cooling (4)；The drinking-water pipe (55) passes through institute It states drawing liquid pump (54) to be connected to the box body (51), and the inside of the box body (51) is equipped with the cellular cooling fin (52)；The second heat exchange fin (53) are distributed in the surface of the box body (51).

7. Whole oiless idling press cooler fan assembly according to claim 3, which is characterized in that the diversion chamber (61) Inside be equipped with auxiliary blade (9), and the auxiliary blade (9) is installed on the screw rod (7) away from the driving motor (8) The other end.