CN110434016A - Oiling mechanism - Google Patents

Abstract

The invention provides an oiling mechanism which is used for coating lubricating oil on a rotating shaft of a motor, wherein the motor is arranged on a tooling plate, and the oiling mechanism comprises: an oil supply assembly; the oil coating part is provided with an accommodating groove used for accommodating the rotating shaft, the accommodating groove is communicated with the oil supply assembly, at least part of the rotating shaft is arranged in the accommodating groove and has a preset distance with the groove wall of the accommodating groove, so that the rotating shaft rotates around the axis of the rotating shaft when the oil supply assembly supplies oil to the accommodating groove, and lubricating oil is uniformly coated on the shaft body of the rotating shaft; the driving assembly is connected with the oiling part to drive the oiling part to move towards the direction close to or far away from the rotating shaft; the positioning assembly is used for being pressed on the body of the motor at least in part so as to fix the motor at a preset position for coating lubricating oil, and the problem that the lubricating oil on the rotating shaft in the prior art is not uniformly coated is solved.

Description

Oiling mechanism

Technical field

The present invention relates to mechanical design fields, in particular to a kind of oiling mechanism.

Background technique

Currently, needing to apply lubricating oil in direct-current air conditioner shaft, existing oiling mode is mainly artificial oiling, worker Large labor intensity, production efficiency is low, and also results in the non-uniform situation of coating.

Summary of the invention

The main purpose of the present invention is to provide a kind of oiling mechanisms, to solve the lubricating oil in shaft in the prior art Coat non-uniform problem.

To achieve the goals above, the present invention provides a kind of oiling mechanisms, and lubrication is coated in the shaft for motor Oil, motor are mounted on working plate, and oiling mechanism includes: fuel feeding component；Oiling component, oiling component have for accommodating shaft Holding tank, holding tank is connected to fuel feeding component, shaft be at least partially seated in holding tank and with the cell wall of holding tank it Between have preset distance, in fuel feeding component fuel feeding into holding tank, make shaft around the shaft axial line rotation so that lubrication Oil is uniformly coated on the axis body of shaft；Driving assembly, driving assembly are connect with oiling component, to drive oiling component direction It is mobile close to or far from the direction of shaft；Positioning component, the ontology at least partly being used to be pressed on motor of positioning component, with Motor is fixed on predetermined position to carry out coating lubricating oil.

Further, positioning component includes: the first positioning region, and the first positioning region is at least partly movably disposed in electricity The top of machine, the first positioning region have compressing member, and compressing member is movably disposed towards the direction close to or far from motor body, Motor is compressed or discharged by compressing member.

Further, the first positioning region, the top for being at least partly movably disposed in motor of the first positioning region, first Positioning region has compressing member, and compressing member has evacuation position and compacted position, and compressing member is between evacuation position and compacted position It is movably disposed, for avoiding motor or clamping motor.

Further, the first positioning region also has loading plate, and the side of working plate is arranged in loading plate, and loading plate is around predetermined Axis can be rotatably set, and the end of loading plate is arranged in compressing member, with by loading plate drive compressing member evacuation position and It is moved between compacted position, with evacuation or clamping motor.

Further, loading plate is movably disposed along the direction close to or far from motor, to drive compressing member rotation To compacted position, drive compressing member direction close to the movement of the direction of motor until the ontology of clamping motor.

Further, loading plate is to be provided with lightening hole on stripe board and/or loading plate.

Further, the first positioning region further include: the first end of piston cylinder, loading plate is mounted on the drive shaft of piston cylinder On, compressing member is mounted in the second end of loading plate.

Further, the first positioning region is two, and two the first positioning regions are set at intervals along the extending direction of working plate It sets.

Further, positioning component includes: the second positioning region, and the side of working plate is arranged in the second positioning region, and second is fixed Position portion has stop block, and stop block is telescopically arranged towards close to or far from the carrying basal plane of working plate, with to working plate into Whereabouts gear or evacuation.

Further, stop block is two, and two stop blocks are separately positioned on the two sides of working plate.

Further, oiling mechanism further include: power device, power device are at least partially seated on working plate, work The metallic channel for conducting wire is provided in loading board, power device is connected to motor by conducting wire, so that shaft rotates.

Further, multiple nozzle openings are provided on oiling component, holding tank is arranged in multiple nozzle openings evenly and at intervals Inner wall on, multiple nozzle openings are connected to fuel feeding component, lubricating oil to be injected in the axis body of shaft by multiple nozzle openings On；The aperture of multiple nozzle openings is 0.2mm to 10mm.

Further, multiple nozzle openings constitute multiple oil spout horizontal arrays, multiple oil spouts in each oil spout horizontal array Hole is around the shaft setting in holding tank；Extending direction arranged for interval of multiple oil spout horizontal arrays along holding tank.

It applies the technical scheme of the present invention, oiling mechanism is used to coat lubricating oil in the shaft for motor, and motor is mounted on On working plate, oiling mechanism includes: fuel feeding component, oiling component, driving assembly and positioning component, and oiling component has for holding Receive the holding tank of shaft, holding tank is connected to fuel feeding component, shaft be at least partially seated in holding tank and with holding tank There is preset distance between cell wall, in fuel feeding component fuel feeding into holding tank, to make the axial line rotation of shaft around the shaft, with It is uniformly coated on lubricating oil on the axis body of shaft；Driving assembly is connect with oiling component, to drive oiling component direction to lean on It is mobile close or remote from the direction of shaft；The ontology at least partly being used to be pressed on motor of positioning component, motor is fixed In predetermined position to carry out coating lubricating oil, the oiling mechanism provided according to the present invention is not necessarily to artificial oiling, saves a large amount of Labour can be coated the lubricating oil on machine shaft more uniform by way of oiling when making shaft in rotation.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:

Fig. 1 shows the structural schematic diagram of the embodiment of oiling mechanism according to the present invention；

Fig. 2 shows the enlarged drawings according to the part A of the oiling mechanism of Fig. 1；

Fig. 3 shows the structural schematic diagram of the embodiment at the first visual angle of oiling mechanism according to the present invention；And

Fig. 4 shows the structural schematic diagram of the embodiment of oiling component according to the present invention.

Wherein, the above drawings include the following reference numerals:

1, motor；2, shaft；3, working plate；10, fuel feeding component；20, oiling component；21, holding tank；210, nozzle opening； 30, driving assembly；40, positioning component；41, the first positioning region；410, compressing member；411, loading plate；412, piston cylinder；42, Two positioning regions；420, stop block；50, frizing component；51, oil scraping plate；60, oil storage box；70, oil controller；80, be powered dress It sets.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

The present invention provides a kind of oiling mechanisms, and please refer to figs. 1 to 4, and lubrication is coated in the shaft 2 for motor 1 Oil, motor 1 are mounted on working plate 3, and oiling mechanism includes: fuel feeding component 10；Oiling component 20, oiling component 20, which has, to be used for The holding tank 21 of shaft 2 is accommodated, holding tank 21 is connected to fuel feeding component 10, and shaft 2 is at least partially seated in holding tank 21 And between the cell wall of holding tank 21 have preset distance, in the fuel feeding into holding tank 21 of fuel feeding component 10, make shaft 2 around The axial line of shaft 2 rotates, so that lubricating oil is uniformly coated on the axis body of shaft 2；Driving assembly 30, driving assembly 30 with Oiling component 20 connects, to drive oiling component 20 mobile towards the direction close to or far from shaft 2；Positioning component 40, positioning The ontology at least partly being used to be pressed on motor of component 40, is fixed on predetermined position for motor 1 to carry out coating lubrication Oil.

The oiling mechanism provided according to the present invention, coats lubricating oil in the shaft 2 for motor 1, and motor 1 is mounted on work In loading board 3, oiling mechanism includes: fuel feeding component 10, oiling component 20, driving assembly 30 and positioning component 40, oiling component 20 With the holding tank 21 for accommodating shaft 2, holding tank 21 is connected to fuel feeding component 10, and shaft 2 is at least partially seated at appearance Receiving has preset distance in slot 21 and between the cell wall of holding tank 21, in the fuel feeding into holding tank 21 of fuel feeding component 10, Make shaft 2 around the shaft 2 axial line rotation so that lubricating oil is uniformly coated on the axis body of shaft 2；Driving assembly 30 and painting Oily component 20 connects, to drive oiling component 20 mobile towards the direction close to or far from shaft 2；At least portion of positioning component 40 Divide the ontology for being pressed on motor 1, motor 1 is fixed on predetermined position to carry out coating lubricating oil, according to the present invention The oiling mechanism of offer is not necessarily to artificial oiling, saves a large amount of labour, by way of oiling when making shaft in rotation, Lubricating oil on machine shaft can be coated more uniform.

In one embodiment provided by the invention, positioning component 40 includes: the first positioning region 41, the first positioning region 41 At least partly it is movably disposed in the top of motor 1, the first positioning region 41 has a compressing member 410, and compressing member 410 is towards close Or the direction far from 1 ontology of motor is movably disposed, to compress or discharge motor 1 by compressing member 410, it is preferred that compress Part 410 is cylinder, has the pressure side surface for 1 ontology of clamping motor on cylinder.

In another embodiment provided by the invention, positioning component 40 includes: the first positioning region 41, the first positioning region 41 The top for being at least partly movably disposed in motor 1, the first positioning region 41 have compressing member 410, compressing member 410 have keeps away Allow position and compacted position, compressing member 410 is movably disposed between evacuation position and compacted position, for avoiding motor 1 or clamping motor 1, during motor 1 is transported to predetermined oiling position by initial position, compressing member 410 is in evacuation Position, when motor 1 is transported to predetermined oiling position, compressing member 410 is moved to compacted position by avoiding position, with fixed electricity Machine 1.

For the ease of installing presser unit 410, the first positioning region 41 also has loading plate 411, and loading plate 411 is arranged in tooling The side of plate 3, loading plate 411 can be rotatably set around predetermined axial line, and the end of loading plate 411 is arranged in compressing member 410, with logical Crossing loading plate 411 drives compressing member 410 mobile in evacuation position and compacted position, with evacuation or clamping motor 1, passes through loading plate 411 drive compressing member 410 mobile, convenient for compressing member 410 to be arranged on the production line of motor, are compressed by 411 Duis of loading plate Part 410 is supported, and in order to which compressing member 410 applies pressure to motor 1, keeps motor 1 more stable during oiling.

Specifically, loading plate 411 is movably disposed along the direction close to or far from motor 1, to drive compressing member 410 After turning to compacted position, compressing member 410 is driven to move the ontology until clamping motor 1 towards the direction close to motor 1.In this way Setting is moved between evacuation position and compacted position convenient for compressing member 410, while can also be convenient for 410 clamping motor of compressing member.

Preferably, loading plate 411 is to be provided with lightening hole on stripe board and/or loading plate 411.Since loading plate 411 is pacified In the production line, for installing presser unit 410, loading plate 411 is suspended state to dress, and therefore, setting lightening hole reduces loading plate 411 weight, in order to the setting and installation of loading plate 411.Stripe board is set by loading plate 411, in order to by loading plate 411 top for extending at least partially into motor 1, in order to which installing presser unit 410 is with clamping motor.Wherein, lightening hole is item Shape hole or lightening hole be it is multiple, multiple lightening holes are arranged at intervals on loading plate 411.

Specifically, the first positioning region 41 further include: piston cylinder 412, the first end of loading plate 411 are mounted on piston cylinder 412 Drive shaft on, compressing member 410 is mounted in the second end of loading plate 411, as shown in Fig. 2, by being arranged on loading plate 411 Lightening hole, additionally it is possible to reduce the bearing capacity of the drive shaft of piston cylinder 412, cross ambassador to avoid the weight due to loading plate 411 and drive Gap is generated between moving axis and the cylinder body of piston cylinder 412, reduces the service life of piston cylinder 412, simultaneously, additionally it is possible to convenient for driving Axis drives loading plate 411 to run.

Preferably, in order to which motor 1 is more firmly secured at oiling position, the first positioning region 41 is two, two the One positioning region 41 is arranged at intervals along the extending direction of working plate 3.Specifically, the first positioning region 41 is separately positioned on shaft 2 Two sides, with the ontology of clamping motor 1.Wherein, two loading plates 411 are respectively facing the two sides rotation of motor, to drive two Compressing member avoids motor.

In embodiment provided by the invention, positioning component 40 includes: the second positioning region 42, and the setting of the second positioning region 42 exists The side of working plate 3, the second positioning region 42 have stop block 420, and stop block 420 is towards the carrying close to or far from working plate 3 Basal plane is telescopically arranged, to carry out backstop or evacuation to working plate 3.Prevent working plate 3 from driving motor mobile, with the first positioning Motor is fixed on oiling position by 41 collective effect of portion.

Preferably, in order to further prevent working plate 3 to move in oiling position, stop block 420 is two, and two only Block 420 is separately positioned on the two sides of working plate 3.

In embodiment provided by the invention, oiling mechanism further include: power device 80, power device 80 is at least partly It is mounted on working plate 3, the metallic channel for conducting wire is provided on working plate 3, power device 80 passes through conducting wire and motor 1 Connection, so that shaft 2 rotates.Setting specifically, is powered in this way convenient for during oiling, the shaft 2 of control motor 1 is rotated There is power-on switch, for controlling whether motor 1 is powered on device 80.

Preferably, oiling mechanism further include: frizing component 50, frizing component 50 have oil scraping plate 51, and oil scraping plate 51 is along appearance The extending direction of slot 21 received is movably disposed, will be made up of after oiling component 20 completes oiling work oil scraping plate 51 Lubricating oil on the end face of holding tank 21 scrapes；The lower section of oiling component 20 is arranged in oil storage box 60, oil storage box 60, for holding The lubricating oil received by being scraped on frizing component 50；Oil controller 70, oil controller 70 setting fuel feeding component 10 with Between oiling component 20, for adjusting the fuel delivery to 20 fuel feeding of oiling component.Setting can be to extra lubricating oil in this way It is recycled, while fuel feeding is quantified by oil controller 70, guarantee the painting oil mass of shaft.

For the ease of the oiling in shaft 2, multiple nozzle openings 210, multiple nozzle opening intervals are provided on oiling component 20 It is evenly provided on the inner wall of holding tank 21, multiple nozzle openings are connected to fuel feeding component 10, will to pass through multiple nozzle openings Lubricating oil is injected on the axis body of shaft 2.Specifically, fuel feeding component 10 has oil feed pump, is made by the pressure that oil feed pump generates Lubricating oil is injected in shaft by multiple nozzle openings, to 2 oiling of shaft.

Preferably, the aperture of multiple nozzle openings 210 is 0.2mm to 10mm, and the same of uniform oiling is capable of on guaranteeing shaft 2 When, avoid the case where causing oil pressure insufficient since aperture is excessive, flowing out lubricating oil along holding tank 21, generate waste lubricating oil.

In embodiment provided by the invention, multiple nozzle openings 210 constitute multiple oil spout horizontal arrays, and each oil spout is lateral Multiple nozzle openings in array are around the shaft setting in holding tank 21；Multiple oil spout horizontal array prolonging along holding tank 21 Stretch direction arranged for interval.To guarantee the uniformity of shaft oiling.

In specific production process, the first positioning region 41 is mounted on the frame body of production line, and specifically, piston cylinder 412 is logical It crosses mounting plate to be mounted on frame body, and the side for being located at motor supply line passes through first when motor is transported to oiling position Positioning region 41 compresses 1 ontology of motor, backstop is carried out by working plate of second positioning region 42 to motor, by oiling component 20 push to operating position by driving assembly 30, so that shaft 2 is located in holding tank 21, opens fuel feeding component 10, pass through oil Quantity regulating device 70 sets fuel delivery, while opening power device 80, rotates shaft 2 in holding tank 21, to carry out oiling； After the completion of motor oiling, fuel feeding component 10 is closed, power device 80 is powered off, the compressing member of the first positioning region 41 is lifted, And evacuation position is turned to, the stop block 420 of the second positioning region 42 is bounced back, motor is delivered to by next work by supply line Position, while driving oiling component 20 to return back to initial position by driving assembly 30.Later, by frizing component 50 by holding tank Extra lubricating oil is scraped to oil storage box 60 on 21, carries out recycling and reusing to lubricating oil.

It can be seen from the above description that the above embodiments of the present invention realized the following chievements:

The oiling mechanism provided according to the present invention, coats lubricating oil in the shaft 2 for motor 1, and motor 1 is mounted on work In loading board 3, oiling mechanism includes: fuel feeding component 10, oiling component 20, driving assembly 30 and positioning component 40, oiling component 20 With the holding tank 21 for accommodating shaft 2, holding tank 21 is connected to fuel feeding component 10, and shaft 2 is at least partially seated at appearance Receiving has preset distance in slot 21 and between the cell wall of holding tank 21, in the fuel feeding into holding tank 21 of fuel feeding component 10, Make shaft 2 around the shaft 2 axial line rotation so that lubricating oil is uniformly coated on the axis body of shaft 2；Driving assembly 30 and painting Oily component 20 connects, to drive oiling component 20 mobile towards the direction close to or far from shaft 2；At least portion of positioning component 40 Divide for being pressed on motor body, motor 1 is fixed on predetermined position to carry out coating lubricating oil, is provided according to the present invention Oiling mechanism, be not necessarily to artificial oiling, save a large amount of labour, make shaft while rotation while oiling by way of, can By the more uniform of the lubricating oil coating on machine shaft.

These are only the preferred embodiment of the present invention, is not intended to restrict the invention, for those skilled in the art For member, the invention may be variously modified and varied.All within the spirits and principles of the present invention, it is made it is any modification, Equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (13)

1. a kind of oiling mechanism, for coat lubricating oil in the shaft (2) of motor (1), the motor (1) to be mounted on working plate (3) on, which is characterized in that the oiling mechanism includes:

Fuel feeding component (10)；

Oiling component (20), the oiling component (20) have the holding tank (21) for accommodating the shaft (2), the receiving Slot (21) is connected to the fuel feeding component (10), the shaft (2) be at least partially seated in the holding tank (21) and with There is preset distance, to supply in fuel feeding component (10) the Xiang Suoshu holding tank (21) between the cell wall of the holding tank (21) When oily, rotate the shaft (2) around the axial line of the shaft (2), so that lubricating oil is uniformly coated on the shaft (2) Axis body on；

Driving assembly (30), the driving component (30) are connect with the oiling component (20), to drive the oiling component (20) mobile towards the direction close to or far from the shaft (2)；

Positioning component (40), the ontology at least partly being used to be pressed on the motor (1) of the positioning component (40), will The motor (1) is fixed on predetermined position to carry out coating lubricating oil.

2. oiling mechanism according to claim 1, which is characterized in that the positioning component (40) includes:

First positioning region (41), first positioning region (41) are at least partly movably disposed in the upper of the motor (1) Side, first positioning region (41) have compressing member (410), and the compressing member (410) is towards close to or far from the motor (1) The direction of ontology is movably disposed, to compress or discharge the motor (1) by the compressing member (410).

3. oiling mechanism according to claim 1, which is characterized in that the positioning component (40) includes:

First positioning region (41), first positioning region (41) are at least partly movably disposed in the upper of the motor (1) Side, first positioning region (41) have compressing member (410), and the compressing member (410) has evacuation position and compacted position, institute It states compressing member (410) to be movably disposed between the evacuation position and the compacted position, for avoiding the motor (1) or the motor (1) is compressed.

4. oiling mechanism according to claim 3, which is characterized in that first positioning region (41) also has loading plate (411), the loading plate (411) is arranged in the side of the working plate (3), and the loading plate (411) can turn around predetermined axial line It is arranged dynamicly, compressing member (410) setting is in the end of the loading plate (411), to be driven by the loading plate (411) The compressing member (410) is moved between the evacuation position and the compacted position, to avoid or compress the motor (1).

5. oiling mechanism according to claim 4, which is characterized in that the loading plate (411) is along close to or far from described The direction of motor (1) is movably disposed, to drive institute after driving the compressing member (410) to turn to the compacted position It is mobile towards the direction close to the motor (1) until compressing the ontology of the motor (1) to state compressing member (410).

6. oiling mechanism according to claim 4, which is characterized in that the loading plate (411) is stripe board and/or institute It states and is provided with lightening hole on loading plate (411).

7. oiling mechanism according to claim 5, which is characterized in that first positioning region (41) further include:

The first end of piston cylinder (412), the loading plate (411) is mounted in the drive shaft of the piston cylinder (412), the pressure Tight part (410) is mounted in the second end of the loading plate (411).

8. oiling mechanism according to claim 2, which is characterized in that first positioning region (41) is two, two institutes The extending direction that the first positioning region (41) is stated along the working plate (3) is arranged at intervals.

9. oiling mechanism according to claim 1, which is characterized in that the positioning component (40) includes:

Second positioning region (42), second positioning region (42) are arranged in the side of the working plate (3), second positioning region (42) there are stop block (420), the stop block (420) can stretch towards the carrying basal plane close to or far from the working plate (3) Contracting ground setting, to carry out backstop or evacuation to the working plate (3).

10. oiling mechanism according to claim 9, which is characterized in that the stop block (420) is two, described in two Stop block (420) is separately positioned on the two sides of the working plate (3).

11. oiling mechanism according to any one of claim 1 to 10, which is characterized in that the oiling mechanism further include:

Power device (80), the power device (80) are at least partially seated on the working plate (3), the working plate (3) it is provided with the metallic channel for conducting wire on, the power device (80) passes through the conducting wire that is mounted in the metallic channel It is connect with the motor (1), so that the shaft (2) rotates.

12. oiling mechanism according to any one of claim 1 to 10, which is characterized in that on the oiling component (20) It is provided with multiple nozzle openings (210), the inner wall of the holding tank (21) is arranged in multiple nozzle openings (210) evenly and at intervals On, multiple nozzle openings (210) are connected to the fuel feeding component (10), will be moistened by multiple nozzle openings (210) Lubricating oil is injected on the axis body of the shaft (2)；The aperture of multiple nozzle openings (210) is 0.2mm to 10mm.

13. oiling mechanism according to claim 12, which is characterized in that multiple nozzle openings (210) constitute multiple sprays Oily horizontal array, multiple nozzle openings (210) in each oil spout horizontal array are around being located at the holding tank (21) Interior shaft setting；Extending direction arranged for interval of multiple oil spout horizontal arrays along the holding tank (21).