CN209663161U - A kind of high-speed dispersing mechanism - Google Patents

Abstract

The utility model discloses a kind of high-speed dispersing mechanisms, including axle sleeve and dispersion axis, the axle sleeve is sheathed on the dispersion axis and is rotatably arranged relative to the dispersion axis, it further include radiating piece, accommodating chamber is surrounded between the axle sleeve and dispersion axis, the radiating piece is located in the accommodating chamber and is fixedly installed on the lateral wall of the dispersion axis；The axle sleeve is equipped with the air inlet of at least one, the air inlet is located at the side of the radiating piece, the air inlet is connected to the accommodating chamber, the dispersion axis or axle sleeve are equipped with outlet passageway, the outlet passageway is connected to the accommodating chamber, and the connectivity part of the outlet passageway and accommodating chamber is located at side of the radiating piece far from air inlet.For the high-speed dispersing mechanism of the utility model by forming airflow channel between axle sleeve and dispersion axis, good heat dissipation effect can extend the service life of high-speed dispersing mechanism.

Description

A kind of high-speed dispersing mechanism

Technical field

The utility model relates to mechanical equipment technical field more particularly to a kind of high-speed dispersing mechanisms.

Background technique

More more and more universal using battery-driven product with social progress and development, small has electronic product, big There are vehicles (such as electric car) etc., driving battery used by these products is essentially lithium battery, and lithium battery is starched The production of material is related to being stirred for multiple material.Currently, its mixing main shaft of planetary mixer is by the hybrid electric motor with reduction gearbox It is driven by chain or other transmission mechanisms, two planet axis for playing mixing are passed by mixing main shaft by planetary gear The driving of motivation structure carries out revolution and rotation, and dispersion main shaft is driven by dispersion motor by tape handler, which wears The lumen of tubulose mixing main shaft is crossed, lower end drives two dispersion axis by tape handler, and two dispersion axis are connected by bearing It connects in the main box two sides of planetary gear transmission mechanism, revolves with main box, while also being carried out by dispersion motor driven high Fast rotation.It is sealed between dispersion axis and axle sleeve by multiple reinforced seals, since dispersion axis and reinforced seal are fitted close, After the dispersion axial length time runs at high speed, since frictional heat generation causes dispersion axis temperature sharply to increase.Heat transfer to other component, It is easy to cause other component to damage.

Utility model content

The technical problem to be solved by the utility model is to a kind of high-speed dispersing mechanism, good heat dissipation effect.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model are as follows:

A kind of high-speed dispersing mechanism, including axle sleeve and dispersion axis, the axle sleeve be sheathed on the dispersion axis and relative to The dispersion axis is rotatably arranged, and further includes radiating piece, surrounds accommodating chamber, the radiating piece position between the axle sleeve and dispersion axis In in the accommodating chamber and be fixedly installed on it is described dispersion axis lateral wall on；The axle sleeve is equipped with the air inlet of at least one Hole, the air inlet are located at the side of the radiating piece, and the air inlet is connected to the accommodating chamber, the dispersion axis or axle sleeve It is equipped with outlet passageway, the outlet passageway is connected to the accommodating chamber, and the connectivity part of the outlet passageway and accommodating chamber is located at Side of the radiating piece far from air inlet.

Further, the outlet passageway is located in the dispersion axis.

Further, the dispersion axis is equipped at least two intercommunicating pore, and at least two intercommunicating pore is along dispersion The circumferencial direction of axis is uniformly arranged, and the outlet passageway is connected to by the intercommunicating pore with the accommodating chamber.

Further, the outlet passageway is located in the axle sleeve.

Further, the outlet passageway includes venthole, and the venthole is located at the air inlet close to radiating piece Side.

Further, the outlet passageway is connected to the air inlet.

Further, the number of the air inlet is at least two, the circumference of at least two air inlet along axle sleeve Direction is uniformly arranged.

It further, further include for driving the actuator for dispersing axis and rotating.

It further, further include dispersion impeller, the dispersion impeller is located at the described dispersion one end of axis far from actuator.

It further, further include bearing, the both ends of the axle sleeve pass through the bearing and the dispersion axis connection respectively.

The utility model has the beneficial effects that: air inlet is arranged on axle sleeve, air can enter receiving from air inlet In chamber, air is gone out from the outlet passageway on dispersion axis or axle sleeve quickly under the drive of radiating piece, while will dispersion axis rotation The heat of generation is taken away, the high-speed dispersing mechanism of the utility model by forming airflow channel between axle sleeve and dispersion axis, Good heat dissipation effect can extend the service life of high-speed dispersing mechanism.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the high-speed dispersing mechanism of the utility model embodiment one；

Fig. 2 is the cross-sectional view of the high-speed dispersing mechanism of the utility model embodiment one；

Fig. 3 is another cross-sectional view of the high-speed dispersing mechanism of the utility model embodiment two；

Fig. 4 is another cross-sectional view of the high-speed dispersing mechanism of the utility model embodiment three.

Label declaration:

1, axle sleeve；2, disperse axis；3, bearing；4, reinforced seal；5, radiating piece；6, accommodating chamber；

7, air inlet；8, outlet passageway；9, intercommunicating pore；10, dispersion impeller；11, actuator；12, flange；13, venthole.

Specific embodiment

For technology contents, the objects and the effects that the utility model is described in detail, below in conjunction with embodiment and match Attached drawing is closed to be explained.

The design of the utility model most critical is: making to form airflow channel between axle sleeve and dispersion axis, in radiating piece It drives lower air to go out quickly from the outlet passageway on dispersion axis or axle sleeve, while being taken away the heat that axis rotation generates is dispersed, Its good heat dissipation effect.

Fig. 1 to Fig. 4, a kind of high-speed dispersing mechanism, including axle sleeve 1 and dispersion axis 2 are please referred to, the axle sleeve 1 is sheathed on institute It states on dispersion axis 2 and relative to the rotatably setting of dispersion axis 2, further includes radiating piece 5, between the axle sleeve 1 and dispersion axis 2 Accommodating chamber 6 is surrounded, the radiating piece 5 is located in the accommodating chamber 6 and is fixedly installed on the lateral wall of the dispersion axis 2；Institute State axle sleeve 1 and be equipped at least one air inlet 7, the air inlet 7 is located at the side of the radiating piece 5, the air inlet 7 and The accommodating chamber 6 is connected to, and the dispersion axis 2 or axle sleeve 1 are equipped with outlet passageway 8, the outlet passageway 8 and the accommodating chamber 6 Connection, the outlet passageway 8 and the connectivity part of accommodating chamber 6 are located at the side of the radiating piece 5 far from air inlet 7.

As can be seen from the above description, the utility model has the beneficial effects that: air inlet is arranged on axle sleeve, air can be from Air inlet enters in accommodating chamber, and air is gone out from the outlet passageway on dispersion axis or axle sleeve quickly under the drive of radiating piece, together When will disperse the heat that axis rotation generates and take away, the high-speed dispersing mechanism of the utility model passes through the shape between axle sleeve and dispersion axis At airflow channel, good heat dissipation effect can extend the service life of high-speed dispersing mechanism.

Further, the outlet passageway 8 is located in the dispersion axis 2.

Seen from the above description, when outlet passageway is located in dispersion axis, dispersion axis is hollow structure, outlet passageway 8 One end is communicated with the atmosphere, and the size of outlet passageway, which can according to need, to be configured.

Further, the dispersion axis 2 is equipped at least two intercommunicating pore 9, at least two intercommunicating pore 9 along point The circumferencial direction for dissipating axis 2 is uniformly arranged, and the outlet passageway 8 is connected to by the intercommunicating pore 9 with the accommodating chamber 6.

Seen from the above description, the number of intercommunicating pore, which can according to need, is configured, and multiple intercommunicating pores, which are arranged, to be mentioned High gas output.

Further, the outlet passageway 8 is located in the axle sleeve 1.

Seen from the above description, outlet passageway also can be set in axle sleeve, and size, which can according to need, to be configured.

Further, the outlet passageway 8 includes venthole 13, and the venthole 13 is located at the air inlet 7 close to scattered The side of warmware 5.

Further, the outlet passageway 8 is connected to the air inlet 7.

Seen from the above description, venthole can be separately provided, and can also be the same hole with air inlet.

Further, the number of the air inlet 7 is at least two, the circle of at least two air inlet 7 along axle sleeve 1 Circumferential direction is uniformly arranged.

Seen from the above description, the number of air inlet, which can according to need, is configured, and increases the number of air inlet and big It is small that air inflow can be improved.

It further, further include for driving the actuator 11 for dispersing axis 2 and rotating.

It further, further include dispersion impeller 10, the dispersion impeller 10 is located at one of the dispersion axis 2 far from actuator 11 End.

Seen from the above description, the number of dispersion impeller, which can according to need, is configured.

It further, further include bearing 3, the both ends of the axle sleeve 1 pass through the bearing 3 respectively and connect with the dispersion axis 2 It connects.

Please refer to Fig. 1 and Fig. 2, the embodiments of the present invention one are as follows:

A kind of high-speed dispersing mechanism, including axle sleeve 1, dispersion axis 2 and bearing 3, the axle sleeve 1 are sheathed on the dispersion axis 2 It is upper and be rotatably arranged relative to the dispersion axis 2, specifically, the both ends of the axle sleeve 1 pass through respectively the bearing 3 with it is described Disperse axis 2 to connect.In the bottom of axle sleeve 1, the reinforced seal 4 for sealing is equipped between axle sleeve 1 and dispersion axis 2.

As shown in Fig. 2, the high-speed dispersing mechanism further includes radiating piece 5, appearance is surrounded between the axle sleeve 1 and dispersion axis 2 Receive chamber 6, the radiating piece 5 is located in the accommodating chamber 6 and is fixedly installed on the lateral wall of the dispersion axis 2, radiating piece 5 Shape, which can according to need, to be configured, and radiating piece 5 can be radiator shutter.The axle sleeve 1 is equipped with the air inlet of at least one Hole 7, it is preferred that the number of the air inlet 7 is at least two, the circumferencial direction of at least two air inlet 7 along axle sleeve 1 It is uniformly arranged.The air inlet 7 is located at the side of the radiating piece 5, and the air inlet 7 is connected to the accommodating chamber 6, and described point It dissipates axis 2 or axle sleeve 1 is equipped with outlet passageway 8, the outlet passageway 8 is connected to the accommodating chamber 6, the outlet passageway 8 and appearance The connectivity part of chamber 6 received is located at the side of the radiating piece 5 far from air inlet 7.In the present embodiment, the outlet passageway 8 is located at institute It states in dispersion axis 2, i.e. the top of dispersion axis 2 is hollow structure, and one end of outlet passageway 8 is communicated with the atmosphere.On the dispersion axis 2 Equipped at least two intercommunicating pore 9, at least two intercommunicating pore 9 is uniformly arranged along the circumferencial direction of dispersion axis 2, it is described go out Gas channel 8 is connected to by the intercommunicating pore 9 with the accommodating chamber 6.Direction shown in arrow in Fig. 2 is the side of gas flowing To.

It further include dispersion impeller 10 and the actuator 11 for driving the dispersion axis 2 to rotate, the dispersion in the present embodiment Disk 10 is located at the described dispersion one end of axis 2 far from actuator 11, and the number of dispersion impeller 10, which can according to need, to be configured.

In the present embodiment, flange 12 is additionally provided on the axle sleeve 1, the air inlet 7 is located at the top of flange 12, because of method Orchid 12 is equipped with sealing ring, when installation the top of flange 12 be connected with ambient atmosphere, and the lower section of flange 12 is and point The inside connection of mechanism is dissipated, sometimes even vacuum environment.

The radiating principle of the high-speed dispersing mechanism of the present embodiment is: when actuator 11 drives dispersion axis 2 to rotate, dispersing axis 2 drive radiating piece 5 to rotate, and air enters in accommodating chamber 6 from air inlet 7, and under the drive of radiating piece 5, it is high that air will disperse axis 2 The heat generated when speed operating is taken out of from outlet passageway 8, to achieve the purpose that reduce temperature in accommodating chamber 6.

Referring to figure 3., the embodiments of the present invention two are a kind of high-speed dispersing mechanism, the difference with embodiment one Be: the outlet passageway 8 is located in the axle sleeve 1, and the axle sleeve 1 is equipped with intercommunicating pore 9, and the outlet passageway 8 includes Stomata 13, the venthole 13 are located at the air inlet 7 close to the side of radiating piece 5.

Referring to figure 4., the embodiments of the present invention three are a kind of high-speed dispersing mechanism, the difference with embodiment two Be: the outlet passageway 8 is connected to the air inlet 7 and air inlet 7 and venthole are the same hole.

In conclusion a kind of high-speed dispersing mechanism provided by the utility model, structure is simple, good heat dissipation effect, can be with Greatly prolong the service life of high-speed dispersing mechanism.

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 Equivalents made based on the specification and figures of the utility model are applied directly or indirectly in relevant technology neck Domain is also included in the patent protection scope of the utility model.

Claims (10)

1. a kind of high-speed dispersing mechanism, including axle sleeve and dispersion axis, the axle sleeve are sheathed on the dispersion axis and relative to institute It states dispersion axis to be rotatably arranged, which is characterized in that further include radiating piece, surround accommodating chamber between the axle sleeve and dispersion axis, institute Radiating piece is stated to be located in the accommodating chamber and be fixedly installed on the lateral wall of the dispersion axis；The axle sleeve is equipped at least one A air inlet, the air inlet are located at the side of the radiating piece, and the air inlet is connected to the accommodating chamber, the dispersion Axis or axle sleeve are equipped with outlet passageway, and the outlet passageway is connected to the accommodating chamber, the company of the outlet passageway and accommodating chamber Logical place is located at side of the radiating piece far from air inlet.

2. high-speed dispersing mechanism according to claim 1, which is characterized in that the outlet passageway is located at the dispersion axis It is interior.

3. high-speed dispersing mechanism according to claim 2, which is characterized in that the dispersion axis is equipped at least two company Through-hole, at least two intercommunicating pore are uniformly arranged along the circumferencial direction of dispersion axis, and the outlet passageway passes through the connection Hole is connected to the accommodating chamber.

4. high-speed dispersing mechanism according to claim 1, which is characterized in that the outlet passageway is located in the axle sleeve.

5. high-speed dispersing mechanism according to claim 4, which is characterized in that the outlet passageway includes venthole, described Venthole is located at the air inlet close to the side of radiating piece.

6. high-speed dispersing mechanism according to claim 4, which is characterized in that the outlet passageway and the air inlet connect It is logical.

7. according to claim 1 to high-speed dispersing mechanism described in 6 any one, which is characterized in that the number of the air inlet It is at least two, at least two air inlet is uniformly arranged along the circumferencial direction of axle sleeve.

8. according to claim 1 to high-speed dispersing mechanism described in 6 any one, which is characterized in that further include for driving State the actuator of dispersion axis rotation.

9. high-speed dispersing mechanism according to claim 8, which is characterized in that further include dispersion impeller, the dispersion impeller is located at The described dispersion one end of axis far from actuator.

10. high-speed dispersing mechanism according to claim 9, which is characterized in that it further include bearing, the both ends point of the axle sleeve Do not pass through the bearing and the dispersion axis connection.