CN208675051U

CN208675051U - Micro-capacitance sensor direct current generator two fans cooling device

Info

Publication number: CN208675051U
Application number: CN201821416253.7U
Authority: CN
Inventors: 徐思方; 孙振华; 李洪波; 武荣光; 刘小波; 王海鸣; 张留住; 黄刚; 贾传胜; 杨茂丰; 党浩育; 韦伟中
Original assignee: Qingdao Upc Blue Sky Petroleum Technology Co Ltd
Current assignee: Zhongshi Dalantian (Qingdao) Petroleum Technology Co., Ltd.
Priority date: 2018-08-31
Filing date: 2018-08-31
Publication date: 2019-03-29
Anticipated expiration: 2028-08-31

Abstract

The utility model discloses a kind of micro-capacitance sensor direct current generator two fans cooling devices, including shell, the shell is internally provided with rotation axis, heat dissipation tank is connected on the shell, one end of the rotation axis is connected to the inside of heat dissipation tank, first bevel gear and the first blower are respectively sleeved in rotation axis, the first bevel gear and the first blower are respectively provided at the inside of heat dissipation tank, the inner vertical of heat dissipation tank is provided with the first rotating bar, the both ends of first rotating bar are respectively equipped with second bevel gear, one group of second bevel gear and first bevel gear are intermeshed, two group of first fixed link is connected separately on the side wall of shell, first fixed link is connected with first bearing far from one end of shell, and first bearing is socketed in respectively in the first rotating bar, the inner horizontal of the heat dissipation tank is provided with the second rotating bar.The utility model is structurally reasonable, and novel in design, motor radiating effect is preferable, can quickly cool to motor, and is not necessarily to additionaling power, economizes on resources.

Description

Micro-capacitance sensor direct current generator two fans cooling device

Technical field

The utility model relates to direct electric current machine cooling device technical field more particularly to a kind of micro-capacitance sensor direct current generator are double Blower cooling device.

Background technique

Micro-capacitance sensor refers to by groups such as distributed generation resource, energy storage device, energy conversion device, load, monitoring and protective devices At small-sized electric system.Direct-current grid refers to that distributed generation resource, energy storage device, load etc. are connected to DC bus, DC network passes through electronic power inversion device (inverter) again and is connected to external communication power grid.Direct-current grid passes through electric power electricity Sub- converting means can provide electric energy to the alternating current and direct current load of different voltages grade, and the fluctuation of distributed generation resource and load can It is adjusted by energy storage device in DC side.

In micro-capacitance sensor, direct current generator, which refers to, can be converted into direct current energy mechanical energy (dc motor) or by mechanical energy It is converted into the rotating electric machine of direct current energy (dc generator).It is to be able to achieve direct current energy and electricity that mechanical energy is converted mutually Machine.It is dc motor when it makees motor running, converts electrical energy into mechanical energy;Make when generator operation to be DC generation Machine converts mechanical energy into electric energy.Existing direct current generator when in use, inside can generate amount of heat, if cold not in time But cool down, then easily burn out motor, the cooling heat dissipation of existing motor generallys use radiating fin and radiates, but radiating fin its Heat dissipation effect is poor, therefore motor radiating effect is bad, and it is cooling to design a kind of micro-capacitance sensor direct current generator two fans for we thus Device solves the above problems.

Utility model content

Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of micro-capacitance sensor direct current proposed Motor two fans cooling device.

To achieve the goals above, the utility model adopts the technical scheme that

A kind of micro-capacitance sensor direct current generator two fans cooling device, including shell, the shell are internally provided with rotation axis, Heat dissipation tank is connected on the shell, one end of the rotation axis is connected to the inside of heat dissipation tank, and is socketed respectively in rotation axis There are first bevel gear and the first blower, the first bevel gear and the first blower are separately positioned on the inside of heat dissipation tank, and radiate The inner vertical of case is provided with the first rotating bar, and the both ends of first rotating bar are respectively arranged with second bevel gear, and one group Second bevel gear and first bevel gear are intermeshed, and are connected separately with two group of first fixed link on the side wall of the shell, and the One fixed link is connected with first bearing far from one end of shell, and first bearing is socketed in respectively in the first rotating bar, described to dissipate The inner horizontal of hot tank is provided with the second rotating bar, and the both ends of second rotating bar are respectively arranged with third hand tap gear, and one group The third hand tap gear is intermeshed with one group of second bevel gear, and second rotating bar is arranged far from one end of the first rotating bar There is third rotating bar, the 4th bevel gear, the 4th bevel gear and one group of third hand tap gear are provided in the third rotating bar It engages, is provided with the second blower in the third rotating bar, and the bottom of shell is arranged in the second blower.

Preferably, the heat dissipation tank is of an L-shaped structure, and offers two groups of air inlets on shell respectively, and one group of air inlet is opened It is located at the position of the rotation axis on shell, other side ventilation opening is provided with the bottom of shell, and heat dissipation tank passes through two groups respectively Air inlet is connected to shell.

Preferably, the bottom of shell is connected with two group of second fixed link, and the structure of the second fixed link described in two groups is identical, phase It is mutually arranged in parallel in the bottom of shell, and the bottom end of two group of second fixed link is connected with second bearing.

Preferably, second bearing described in two groups is socketed in respectively in the second rotating bar.

Preferably, the outside of the shell offers ventilation opening.

Preferably, the bottom end of the shell is vertically arranged with support column, and the bottom end of support column is provided with support plate, The two sides of support column are connected separately with reinforcing rod, and the one end of reinforcing rod far from support column is connect with support plate respectively.

Compared with prior art, the utility model has the beneficial effects that in the utility model, rotation axis rotation, rotation axis The first blower of the driving rotation turned is that the first blower is radiated by the air inlet on shell to shell, and rotation axis rotates Second bevel gear rotation is brought by first bevel gear, and then drives the rotation of the first rotating bar, and the first rotating bar passes through the second cone The cooperation of gear and third hand tap gear drives the rotation of the second rotating bar, passes through the third hand tap gear and the 4th cone in the second rotating bar The cooperation of gear drives the rotation of third rotating bar, and then drives the rotation of the second blower, further gives motor radiating, heat dissipation effect Preferably, and it is not necessarily to additionaling power, the utility model is structurally reasonable, and novel in design, motor radiating effect is preferable, can be quickly to electricity Machine cools, and is not necessarily to additionaling power, economizes on resources.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of micro-capacitance sensor direct current generator two fans cooling device structural schematic diagram；

Fig. 2 is enlarged drawing at the A in Fig. 1；

Fig. 3 is enlarged drawing at the B in Fig. 1.

In figure: 1 shell, 2 rotation axis, 3 heat dissipation tanks, 4 first bevel gears, 5 first blowers, 6 first rotating bars, 7 second cones Gear, 8 first fixed links, 9 first bearings, 10 second rotating bars, 11 third hand tap gears, 12 second fixed links, 13 second bearings, 14 third rotating bars, 15 the 4th bevel gears, 16 second blowers, 17 ventilation openings.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-3, a kind of micro-capacitance sensor direct current generator two fans cooling device, including shell 1, the outside of shell 1 open up There is ventilation opening 17, the bottom end of shell 1 is vertically arranged with support column, and the bottom end of support column is provided with support plate, support column Two sides be connected separately with reinforcing rod, and the one end of reinforcing rod far from support column is connect with support plate respectively, and the inside of shell 1 is set It is equipped with rotation axis 2, heat dissipation tank 3 is connected on shell 1, heat dissipation tank 3 is of an L-shaped structure, and offers two groups of air inlets on shell 1 respectively Mouthful, one group of air inlet is provided at the position of the rotation axis 2 on shell 1, and other side ventilation opening is provided with the bottom of shell 1, and Heat dissipation tank 3 is connected to by two groups of air inlets with shell 1 respectively, and one end of rotation axis 2 is connected to the inside of heat dissipation tank 3, and rotates First bevel gear 4 and the first blower 5 are respectively sleeved on axis 2, first bevel gear 4 and the first blower 5 are separately positioned on heat dissipation tank 3 Inside, and the inner vertical of heat dissipation tank 3 is provided with the first rotating bar 6, and the both ends of the first rotating bar 6 are respectively arranged with the second cone Gear 7, and one group of second bevel gear 7 and first bevel gear 4 are intermeshed, and are connected separately with two group first on the side wall of shell 1 Fixed link 8, and the first fixed link 8 is connected with first bearing 9 far from one end of shell 1, and first bearing 9 is socketed in first respectively In rotating bar 6, the inner horizontal of heat dissipation tank 3 is provided with the second rotating bar 10, and the bottom of shell 1 is connected with two group of second fixed link 12, the structure of two group of second fixed link 12 is identical, the bottom arranged in parallel in shell 1, and two group of second fixed link 12 Bottom end is connected with second bearing 13, and two groups of second bearings 13 are socketed in respectively in the second rotating bar 10, and the two of the second rotating bar 10 End is respectively arranged with third hand tap gear 11, and one group of third hand tap gear 11 and one group of second bevel gear 7 are intermeshed, the second rotating bar 10 one end far from the first rotating bar 6 are provided with third rotating bar 14, and the 4th bevel gear 15 is provided in third rotating bar 14, the Four bevel gears 15 engage with one group of third hand tap gear 11, and the second blower 16, and the second blower 16 are provided in third rotating bar 14 The bottom of shell 1 is set.

Working principle: when the utility model is used, motor is in use, rotation axis 2 rotates, the driving that 2 turns of rotation axis the The rotation of one blower 5, which is the first blower 5, is radiated by the air inlet on shell 1 to shell 1, and the rotation of rotation axis 2 passes through the One bevel gear 4 brings the rotation of second bevel gear 7 into, and then drives the rotation of the first rotating bar 6, and the first rotating bar 6 passes through the second cone tooth The cooperation of wheel 7 and third hand tap gear 11 drives the rotation of the second rotating bar 10, passes through the third hand tap gear 11 in the second rotating bar 10 With the cooperation of the 4th bevel gear 15, third rotating bar 14 is driven to rotate, and then drive the rotation of the second blower 16, further gives motor Heat dissipation, heat dissipation effect is preferable, and is not necessarily to additionaling power, and the utility model is structurally reasonable, novel in design, motor radiating effect compared with It is good, it can quickly cool, and be not necessarily to additionaling power, economize on resources to motor.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims

1. a kind of micro-capacitance sensor direct current generator two fans cooling device, including shell (1), which is characterized in that the shell (1) it is interior Portion is provided with rotation axis (2), is connected with heat dissipation tank (3) on the shell (1), and one end of the rotation axis (2) is connected to heat dissipation The inside of case (3), and first bevel gear (4) and the first blower (5), the first bevel gear are respectively sleeved in rotation axis (2) (4) inside of heat dissipation tank (3) is separately positioned on the first blower (5), and the inner vertical of heat dissipation tank (3) is provided with the first rotation The both ends of bar (6), first rotating bar (6) are respectively arranged with second bevel gear (7), and one group of second bevel gear (7) and the One bevel gear (4) is intermeshed, and two group of first fixed link (8) is connected separately on the side wall of the shell (1), and first is fixed Bar (8) is connected with first bearing (9) far from the one end of shell (1), and first bearing (9) is socketed in the first rotating bar (6) respectively On, the inner horizontal of the heat dissipation tank (3) is provided with the second rotating bar (10), and the both ends of second rotating bar (10) are set respectively It being equipped with third hand tap gear (11), third hand tap gear described in one group (11) is intermeshed with one group of second bevel gear (7), and described second Rotating bar (10) is provided with third rotating bar (14) far from the one end of the first rotating bar (6), is set on the third rotating bar (14) It is equipped with the 4th bevel gear (15), the 4th bevel gear (15) is engaged with one group of third hand tap gear (11), the third rotating bar (14) it is provided on the second blower (16), and the second blower (16) setting is in the bottom of shell (1).

2. a kind of micro-capacitance sensor direct current generator two fans cooling device according to claim 1, which is characterized in that the heat dissipation Case (3) is of an L-shaped structure, and offers two groups of air inlets on shell (1) respectively, and one group of air inlet, which is provided on shell (1), to be turned At the position of moving axis (2), other side ventilation opening is provided with the bottom of shell (1), and heat dissipation tank (3) passes through two groups of air inlets respectively It is connected to shell (1).

3. a kind of micro-capacitance sensor direct current generator two fans cooling device according to claim 1, which is characterized in that shell (1) Bottom be connected with two group of second fixed link (12), the structure of the second fixed link (12) described in two groups is identical, arranged in parallel Second bearing (13) are connected in the bottom end of the bottom of shell (1), and two group of second fixed link (12).

4. a kind of micro-capacitance sensor direct current generator two fans cooling device according to claim 3, which is characterized in that described in two groups Second bearing (13) is socketed in respectively on the second rotating bar (10).

5. a kind of micro-capacitance sensor direct current generator two fans cooling device according to claim 1, which is characterized in that the shell (1) outside offers ventilation opening (17).

6. a kind of micro-capacitance sensor direct current generator two fans cooling device according to claim 1, which is characterized in that the shell (1) bottom end is vertically arranged with support column, and the bottom end of support column is provided with support plate, and the two sides of support column are separately connected There is reinforcing rod, and the one end of reinforcing rod far from support column is connect with support plate respectively.