CN205882928U - Motor casing - Google Patents

Abstract

The utility model discloses a motor casing, including cylindrical casing, still include cooling tube and columniform radiator, radiator and circular cylindrical shell component parts of an entirety axle, the diameter of radiator are greater than the diameter of cylindrical casing, the cooling tube has many, and cooling tube one end is located the radiator, and it is internal that one end is located the circular cylindrical shell, cooling tube inner wall evenly distributed has the imbibition core, takes out the negative pressure in the cooling tube, is packaged with freon in the cooling tube. The radiator includes stainless steel layer, aluminium alloy layer, ceramic layer and carbon steel layer, the stainless steel level is below the aluminium alloy layer, the ceramic layer is located the aluminium alloy layer top, the carbon steel level is above the ceramic layer. The utility model discloses the radiating effect is good, can take away the heat on the casing fast, guarantees that the heat of motor core looses fast, has prolonged the life of motor.

Description

Motor casing

Technical field

This utility model relates to a kind of motor, particularly relates to a kind of motor casing.

Background technology

Motor is equipment the most common in mechanical field, and its effect is to provide power to various plant equipment, electronic The basic structure of machine includes movement and casing, and casing is used for protecting movement, is also used for movement heat radiation, it is to avoid movement high temperature burns simultaneously Bad.The structure of motor casing mainly includes a cylindrical housing, is then axially provided with all on cylindrical housing Even distribution convex stupefied, arranges convex stupefied effect and is to help heat radiation.Existing this motor casing radiating effect is not very good, The motor that particularly power is bigger, caloric value is big, it is impossible to dispel the heat in time, shortens the service life of motor.

Utility model content

For the defect that the radiating effect overcoming existing motor casing to exist is poor, this utility model provides a kind of electricity Motivation casing, this motor casing good heat dissipation effect, it is possible to quickly take away the heat in casing, it is ensured that the heat of motor movement Quickly dissipate, extend the service life of motor.

This utility model be the technical scheme is that by the above-mentioned technical problem of solution

Motor casing, including cylindrical housings, it is characterised in that: also include radiating tube and cylindrical radiator, dissipate Hot body is coaxial with cylindrical housings, and the diameter of radiator is more than the diameter of cylindrical housings, and described radiating tube has many, radiating tube One end is positioned at radiator, and one end is positioned at circular cylindrical shell body, and described radiating tube inwall is evenly distributed with wick, in radiating tube Taking out negative pressure, be packaged with freon in radiating tube, described radiator includes stainless steel layer, aluminium alloy layer, ceramic layer and carbon element steel layer, Described stainless steel layer is positioned at below aluminium alloy layer, and described ceramic layer is positioned at above aluminium alloy layer, and described carbon element steel layer is positioned at pottery Above Ceng.

Described wick capillary-porous material is made.

Described radiating tube is uniformly distributed along cylindrical housings circumference, and being positioned at the radiating tube on same circumference is a row, circle Being provided with multiple rows of radiating tube on cylindrical shell, the center of circle of each dissipation heat pipe is on same straight line.

Being provided with radiating groove in described radiator, radiating groove is concentric with radiator, and radiating groove has a plurality of, with each dissipation heat pipe Corresponding setting, every dissipation heat pipe all stretches in a radiating groove, and every radiating groove connects four air vents.

Being provided with a plurality of axial convex stupefied on described circular cylindrical shell external surface, convex stupefied cross section is T-shaped.

Described cylindrical housings inner surface is provided with a plurality of axial groove, and the cross section of axial groove is V-shaped.

Being provided with a plurality of axial convex stupefied A on described radiator outer surface, the cross section of convex stupefied A is trapezoidal.

Being provided with a plurality of axial groove A on described radiator inner surface, the cross section of axial groove A is U-shaped.

This utility model has the advantages that

1, this utility model includes cylindrical housings, also includes radiating tube and cylindrical radiator, radiator and cylinder Shape housing is coaxial, and the diameter of radiator is more than the diameter of cylindrical housings, and described radiating tube has many, and radiating tube one end is positioned at scattered In hot body, one end is positioned at circular cylindrical shell body, and described radiating tube inwall is evenly distributed with wick, takes out negative pressure in radiating tube, dissipates Freon it is packaged with in heat pipe.Heat is carried away to radiator from cylindrical housings by this utility model by the effect of radiating tube Dissipating, the freon in radiating tube is heated and flashes to gas, moves to the other end of radiating tube, the other end freon of radiating tube Condensing out, give off heat, the freon of liquid is siphoned away reset by wick again, and so circulation is just by the heat on cylindrical shell Amount is delivered on radiator, has dissipated heat, good heat dissipation effect, and radiating rate is fast.Described radiator includes that stainless steel layer, aluminum close Layer gold, ceramic layer and carbon element steel layer, described stainless steel layer is positioned at below aluminium alloy layer, and described ceramic layer is positioned on aluminium alloy layer Side, described carbon element steel layer is positioned at above ceramic layer.To arrange radiating efficiency higher by such for radiator, and radiating effect is more preferable.

2, this utility model radiating tube is uniformly distributed along cylindrical housings circumference, is positioned at the radiating tube on same circumference and is One row, cylindrical housings is provided with multiple rows of radiating tube, and each dissipation heat pipe center of circle is on same straight line and and cylindrical housings Coaxially.Heat on cylindrical shell quickly can be taken away by the radiating tube of so arrangement, good heat dissipation effect, radiating efficiency Height, and dispel the heat uniformly.

3, being provided with radiating groove in this utility model radiator, radiating groove is concentric with radiator, and radiating groove has a plurality of, and respectively The corresponding setting of dissipation heat pipe, every dissipation heat pipe all stretches in a radiating groove, and every radiating groove connects four air vents.Logical Crossing the effect of radiating groove, the heat brought by radiating tube quickly dissipates, it is to avoid radiator dispels the heat not in time, it is impossible to take away radiating tube Heat.

4, being provided with a plurality of axial convex stupefied on this utility model circular cylindrical shell external surface, convex stupefied cross section is T-shaped.Logical The stupefied effect of excess convexity can increase the heat-sinking capability of cylindrical housings self, and radiating effect is more preferable, and T-shaped convex stupefied also is able to Improve radiating efficiency, obtain more preferable radiating effect.

5, this utility model cylindrical housings inner surface is provided with a plurality of axial groove, and the cross section of axial groove is V-shaped.Pass through The effect of axial groove can increase the heat-sinking capability of cylindrical housings self, and radiating effect is more preferable, and the axial groove of V-shaped also can Enough improve radiating efficiency, obtain more preferable radiating effect.

6, being provided with a plurality of axial convex stupefied A on this utility model radiator outer surface, the cross section of convex stupefied A is trapezoidal.Logical The effect of the stupefied A of excess convexity can increase the heat-sinking capability of radiator self, and radiating effect is more preferable, and trapezoidal convex stupefied A also is able to carry High cooling efficiency, obtains more preferable radiating effect.

7, being provided with a plurality of axial groove A on this utility model radiator inner surface, the cross section of axial groove A is U-shaped.Pass through The effect of axial groove A can increase the heat-sinking capability of radiator self, and radiating effect is more preferable, and the axial groove A of U-shaped also is able to Improve radiating efficiency, obtain more preferable radiating effect.

Accompanying drawing explanation

Fig. 1 is this utility model embodiment 1 overall structure schematic diagram；

Fig. 2 is the schematic cross-section of this utility model embodiment 1；

Fig. 3 is the schematic cross-section of this utility model embodiment 2；

Fig. 4 is the structural representation of this utility model radiating tube；

Fig. 5 is radiator structure schematic diagram.

Labelling in figure: 1, cylindrical housings, 2, radiating tube, 3, radiator, 301, stainless steel layer, 302, aluminium alloy layer, 303, ceramic layer, 304, carbon element steel layer, 4, wick, 5, freon, 6, radiating groove, 7, air vent, 8, convex stupefied, 9, axial groove, 10, convex stupefied A, 11, axial groove A.

Detailed description of the invention

Below in conjunction with embodiment, the utility model will be further described, and described embodiment is only that this practicality is new The a part of embodiment of type, is not whole embodiments.Based on the embodiment in this utility model, the ordinary skill people of this area Member obtained under not making creative work premise other used by embodiment, broadly fall into protection model of the present utility model Enclose.

Embodiment 1

The present embodiment includes cylindrical housings 1, also includes radiating tube 2 and cylindrical radiator 3, radiator 3 and cylinder Shape housing 1 is coaxial, and the diameter of radiator 3 is more than the diameter of cylindrical housings 1, and described radiating tube 2 has many, radiating tube 2 one end Being positioned at radiator 3, one end is positioned at cylindrical housings 1, and described radiating tube 2 inwall is evenly distributed with wick 4, radiating tube 2 Inside take out negative pressure, in radiating tube 2, be packaged with freon 5.Described radiator 3 includes stainless steel layer 301, aluminium alloy layer 302, ceramic layer 303 and carbon element steel layer 304, described stainless steel layer 301 is positioned at below aluminium alloy layer 302, and described ceramic layer 303 is positioned at aluminium alloy layer Above in the of 302, described carbon element steel layer 304 is positioned at above ceramic layer 303.

Heat cylindrical housings is carried away on radiator dissipate, in radiating tube by the present embodiment by the effect of radiating tube Freon be heated and flash to gas, move to the other end of radiating tube, the other end freon of radiating tube condenses out, and sends Heat, the freon of liquid is siphoned away reset by wick again, and the heat on cylindrical shell is just delivered to heat radiation by so circulation On body, having dissipated heat, good heat dissipation effect, radiating rate is fast.

The present embodiment radiating tube 2 is uniformly distributed along cylindrical housings 1 circumference, and the radiating tube 2 being positioned on same circumference is One row, cylindrical housings 1 is provided with multiple rows of radiating tube 2, and the center of circle of each dissipation heat pipe 2 is on same straight line.By so Heat on cylindrical shell can quickly be taken away by the radiating tube of arrangement, good heat dissipation effect, and radiating efficiency is high, and dispels the heat all Even.

Being provided with radiating groove 6 in the present embodiment radiator 3, radiating groove 6 is concentric with radiator 3, and radiating groove 6 has a plurality of, with Each corresponding setting of dissipation heat pipe 2, every dissipation heat pipe 2 all stretches in a radiating groove 6, and every radiating groove 6 connects has four to lead to Air holes 7.By the effect of radiating groove, the heat brought by radiating tube quickly dissipates, it is to avoid radiator dispels the heat not in time, it is impossible to band Walk the heat of radiating tube.

Embodiment 2

The present embodiment includes cylindrical housings 1, also includes radiating tube 2 and cylindrical radiator 3, radiator 3 and cylinder Shape housing 1 is coaxial, and the diameter of radiator 3 is more than the diameter of cylindrical housings 1, and described radiating tube 2 has many, radiating tube 2 one end Being positioned at radiator 3, one end is positioned at cylindrical housings 1, and described radiating tube 2 inwall is evenly distributed with wick 4, radiating tube 2 Inside take out negative pressure, in radiating tube 2, be packaged with freon 5.Described radiator 3 includes stainless steel layer 301, aluminium alloy layer 302, ceramic layer 303 and carbon element steel layer 304, described stainless steel layer 301 is positioned at below aluminium alloy layer 302, and described ceramic layer 303 is positioned at aluminium alloy layer Above in the of 302, described carbon element steel layer 304 is positioned at above ceramic layer 303.

Heat cylindrical housings is carried away on radiator dissipate, in radiating tube by the present embodiment by the effect of radiating tube Freon be heated and flash to gas, move to the other end of radiating tube, the other end freon of radiating tube condenses out, and sends Heat, the freon of liquid is siphoned away reset by wick again, and the heat on cylindrical shell is just delivered to heat radiation by so circulation On body, having dissipated heat, good heat dissipation effect, radiating rate is fast.

The present embodiment radiating tube 2 is uniformly distributed along cylindrical housings 1 circumference, and the radiating tube 2 being positioned on same circumference is One row, cylindrical housings 1 is provided with multiple rows of radiating tube 2, and the center of circle of each dissipation heat pipe 2 is on same straight line.By so Heat on cylindrical shell can quickly be taken away by the radiating tube of arrangement, good heat dissipation effect, and radiating efficiency is high, and dispels the heat all Even.

Being provided with radiating groove 6 in the present embodiment radiator 3, radiating groove 6 is concentric with radiator 3, and radiating groove 6 has a plurality of, with Each corresponding setting of dissipation heat pipe 2, every dissipation heat pipe 2 all stretches in a radiating groove 6, and every radiating groove 6 connects has four to lead to Air holes 7.By the effect of radiating groove, the heat brought by radiating tube quickly dissipates, it is to avoid radiator dispels the heat not in time, it is impossible to band Walk the heat of radiating tube.

Being provided with a plurality of axial convex stupefied 8 on the present embodiment cylindrical housings 1 outer surface, convex stupefied 8 cross sections are T-shaped.Logical The stupefied effect of excess convexity can increase the heat-sinking capability of cylindrical housings self, and radiating effect is more preferable, and T-shaped convex stupefied also is able to Improve radiating efficiency, obtain more preferable radiating effect.

The present embodiment cylindrical housings 1 inner surface is provided with a plurality of axial groove 9, and the cross section of axial groove 9 is V-shaped.Pass through The effect of axial groove can increase the heat-sinking capability of cylindrical housings self, and radiating effect is more preferable, and the axial groove of V-shaped also can Enough improve radiating efficiency, obtain more preferable radiating effect.

Being provided with a plurality of axial convex stupefied A10 on the present embodiment radiator 3 outer surface, the cross section of convex stupefied A10 is trapezoidal.Logical The effect of the stupefied A of excess convexity can increase the heat-sinking capability of radiator self, and radiating effect is more preferable, and trapezoidal convex stupefied A also is able to carry High cooling efficiency, obtains more preferable radiating effect.

Being provided with a plurality of axial groove A11 on the present embodiment radiator 3 inner surface, the cross section of axial groove A11 is U-shaped.Logical The effect crossing axial groove A can increase the heat-sinking capability of radiator self, and radiating effect is more preferable, and the axial groove A of U-shaped also can Enough improve radiating efficiency, obtain more preferable radiating effect.

Embodiment 3

The present embodiment includes cylindrical housings 1, also includes radiating tube 2 and cylindrical radiator 3, radiator 3 and cylinder Shape housing 1 is coaxial, and the diameter of radiator 3 is more than the diameter of cylindrical housings 1, and described radiating tube 2 has many, radiating tube 2 one end Being positioned at radiator 3, one end is positioned at cylindrical housings 1, and described radiating tube 2 inwall is evenly distributed with wick 4, radiating tube 2 Inside take out negative pressure, in radiating tube 2, be packaged with freon 5.Described radiator 3 includes stainless steel layer 301, aluminium alloy layer 302, ceramic layer 303 and carbon element steel layer 304, described stainless steel layer 301 is positioned at below aluminium alloy layer 302, and described ceramic layer 303 is positioned at aluminium alloy layer Above in the of 302, described carbon element steel layer 304 is positioned at above ceramic layer 303.

Heat cylindrical housings is carried away on radiator dissipate, in radiating tube by the present embodiment by the effect of radiating tube Freon be heated and flash to gas, move to the other end of radiating tube, the other end freon of radiating tube condenses out, and sends Heat, the freon of liquid is siphoned away reset by wick again, and the heat on cylindrical shell is just delivered to heat radiation by so circulation On body, having dissipated heat, good heat dissipation effect, radiating rate is fast.

The present embodiment radiating tube 2 is uniformly distributed along cylindrical housings 1 circumference, and the radiating tube 2 being positioned on same circumference is One row, cylindrical housings 1 is provided with multiple rows of radiating tube 2, and the center of circle of each dissipation heat pipe 2 is on same straight line.By so Heat on cylindrical shell can quickly be taken away by the radiating tube of arrangement, good heat dissipation effect, and radiating efficiency is high, and dispels the heat all Even.

Being provided with radiating groove 6 in the present embodiment radiator 3, radiating groove 6 is concentric with radiator 3, and radiating groove 6 has a plurality of, with Each corresponding setting of dissipation heat pipe 2, every dissipation heat pipe 2 all stretches in a radiating groove 6, and every radiating groove 6 connects has four to lead to Air holes 7.By the effect of radiating groove, the heat brought by radiating tube quickly dissipates, it is to avoid radiator dispels the heat not in time, it is impossible to band Walk the heat of radiating tube.

Being provided with a plurality of axial convex stupefied 8 on the present embodiment cylindrical housings 1 outer surface, convex stupefied 8 cross sections are T-shaped.Logical The stupefied effect of excess convexity can increase the heat-sinking capability of cylindrical housings self, and radiating effect is more preferable, and T-shaped convex stupefied also is able to Improve radiating efficiency, obtain more preferable radiating effect.

The present embodiment cylindrical housings 1 inner surface is provided with a plurality of axial groove 9, and the cross section of axial groove 9 is V-shaped.Pass through The effect of axial groove can increase the heat-sinking capability of cylindrical housings self, and radiating effect is more preferable, and the axial groove of V-shaped also can Enough improve radiating efficiency, obtain more preferable radiating effect.

Embodiment 4

The present embodiment includes cylindrical housings 1, also includes radiating tube 2 and cylindrical radiator 3, radiator 3 and cylinder Shape housing 1 is coaxial, and the diameter of radiator 3 is more than the diameter of cylindrical housings 1, and described radiating tube 2 has many, radiating tube 2 one end Being positioned at radiator 3, one end is positioned at cylindrical housings 1, and described radiating tube 2 inwall is evenly distributed with wick 4, radiating tube 2 Inside take out negative pressure, in radiating tube 2, be packaged with freon 5.Described radiator 3 includes stainless steel layer 301, aluminium alloy layer 302, ceramic layer 303 and carbon element steel layer 304, described stainless steel layer 301 is positioned at below aluminium alloy layer 302, and described ceramic layer 303 is positioned at aluminium alloy layer Above in the of 302, described carbon element steel layer 304 is positioned at above ceramic layer 303.

Heat cylindrical housings is carried away on radiator dissipate, in radiating tube by the present embodiment by the effect of radiating tube Freon be heated and flash to gas, move to the other end of radiating tube, the other end freon of radiating tube condenses out, and sends Heat, the freon of liquid is siphoned away reset by wick again, and the heat on cylindrical shell is just delivered to heat radiation by so circulation On body, having dissipated heat, good heat dissipation effect, radiating rate is fast.

The present embodiment radiating tube 2 is uniformly distributed along cylindrical housings 1 circumference, and the radiating tube 2 being positioned on same circumference is One row, cylindrical housings 1 is provided with multiple rows of radiating tube 2, and the center of circle of each dissipation heat pipe 2 is on same straight line.By so Heat on cylindrical shell can quickly be taken away by the radiating tube of arrangement, good heat dissipation effect, and radiating efficiency is high, and dispels the heat all Even.

Being provided with radiating groove 6 in the present embodiment radiator 3, radiating groove 6 is concentric with radiator 3, and radiating groove 6 has a plurality of, with Each corresponding setting of dissipation heat pipe 2, every dissipation heat pipe 2 all stretches in a radiating groove 6, and every radiating groove 6 connects has four to lead to Air holes 7.By the effect of radiating groove, the heat brought by radiating tube quickly dissipates, it is to avoid radiator dispels the heat not in time, it is impossible to band Walk the heat of radiating tube.

Being provided with a plurality of axial convex stupefied A10 on the present embodiment radiator 3 outer surface, the cross section of convex stupefied A10 is trapezoidal.Logical The effect of the stupefied A of excess convexity can increase the heat-sinking capability of radiator self, and radiating effect is more preferable, and trapezoidal convex stupefied A also is able to carry High cooling efficiency, obtains more preferable radiating effect.

Being provided with a plurality of axial groove A11 on the present embodiment radiator 3 inner surface, the cross section of axial groove A11 is U-shaped.Logical The effect crossing axial groove A can increase the heat-sinking capability of radiator self, and radiating effect is more preferable, and the axial groove A of U-shaped also can Enough improve radiating efficiency, obtain more preferable radiating effect.

Claims (7)

1. motor casing, including cylindrical housings, it is characterised in that: also include radiating tube and cylindrical radiator, heat radiation Body is coaxial with cylindrical housings, and the diameter of radiator is more than the diameter of cylindrical housings, and described radiating tube has many, radiating tube one End is positioned at radiator, and one end is positioned at circular cylindrical shell body, and described radiating tube inwall is evenly distributed with wick, takes out in radiating tube Negative pressure, is packaged with freon in radiating tube, described radiator includes stainless steel layer, aluminium alloy layer, ceramic layer and carbon element steel layer, institute Stating stainless steel layer and be positioned at below aluminium alloy layer, described ceramic layer is positioned at above aluminium alloy layer, and described carbon element steel layer is positioned at ceramic layer Top.

Motor casing the most according to claim 1, it is characterised in that: described radiating tube is along cylindrical housings circumference all Even distribution, being positioned at the radiating tube on same circumference is a row, and cylindrical housings is provided with multiple rows of radiating tube, each dissipation heat pipe The center of circle is on same straight line.

Motor casing the most according to claim 1, it is characterised in that: it is provided with radiating groove in described radiator, heat radiation Groove is concentric with radiator, and radiating groove has a plurality of, and with each corresponding setting of dissipation heat pipe, every dissipation heat pipe all stretches into a radiating groove In, every radiating groove connects four air vents.

Motor casing the most according to claim 1, it is characterised in that: it is provided with many on described circular cylindrical shell external surface Axial convex stupefied of bar, convex stupefied cross section is T-shaped.

Motor casing the most according to claim 1, it is characterised in that: described cylindrical housings inner surface is provided with a plurality of Axial groove, the cross section of axial groove is V-shaped.

Motor casing the most according to claim 1, it is characterised in that: it is provided with a plurality of axle on described radiator outer surface To convex stupefied A, the cross section of convex stupefied A is trapezoidal.

Motor casing the most according to claim 1, it is characterised in that: it is provided with a plurality of axle on described radiator inner surface To groove A, the cross section of axial groove A is U-shaped.