CN108418359B - Car motor rotor automatic oiling device - Google Patents

Abstract

The invention discloses car motor rotor automatic oiling devices, transfer device includes the conveyer belt on tensioning shaft and support shaft, driving device includes shaft, roller end is fixed with the driving wheel equipped with double wedge, driving wheel is engaged with first gear, the end face eccentric of driving wheel is provided with the first convex block, it further include swing component, swing component includes swing arm and sector gear, painting device includes the cylinder being arranged in below swing component, inlet valve and delivery valve are equipped on the cylinder sidewall of cylinder piston rod side, oil groove is offered in cylinder bottom, painting device is covered on oil groove, oil pipe is equipped in cylinder sidewall between delivery valve and oil groove；It is equipped with breather check valve and outgassing nonreturn valve on the cylinder sidewall far from cylinder piston rod side, jet thrust is equipped on painting device side wall.It can be greatly improved to the automatic oiling antirust treatment of rotor, efficiency using the technical program.

Description

Car motor rotor automatic oiling device

Technical field

The present invention relates to rotor processing technique fields, in particular to car motor rotor automatic oiling device.

Background technique

Motor is a kind of equipment that electric energy can be converted to mechanical energy, is a kind of most common motor machine, ours Particularly important effect is played in social production life；Wherein the structure of motor is mainly made of stator, rotor and end cap, wherein Rotor end-face, which gets rusty, in order to prevent influences the service life of motor work, needs to apply one on two end face in rotor manufacture Layer antirust oil, and typically now enterprise is mainly smeared by the way of artificial when smearing antirust oil for rotor, that is, used The tool of similar writing brush dips in antirust oil, is then applied on the end face of rotor.

Firstly, also needing to carry out smearing processing to the other end after smearing rotor one end, if therefore adopting Smearing mode manually, efficiency can it is very low under；Secondly the mode manually smeared is easy to smear uneven, it is possible to so that turning The sub- certain positions in end face apply thicker, and some positions apply very thin, even without being applied to, all will seriously affect rotor Quality and enterprise productivity effect；Punching processing is finally also carried out before oiling due to rotor, in the end face of rotor On be also possible to remain many metal fillings, if directly carrying out processing of putting the oil, metal fillings can be mixed in antirust oil reservoir, this can also lead The problem of causing rust-proof effect decline.

Summary of the invention

The purpose of the present invention is to provide car motor rotor automatic oiling devices, to solve in the prior art using artificial Oiling antirust treatment, the lower problem of efficiency are carried out to rotor.

In order to achieve the above object, base case of the invention are as follows:

Car motor rotor automatic oiling device, including transfer device, driving device and oiling station, the transfer device Including being rotatablely connected tensioning shaft and support shaft on the rack, it is rotatably connected in the tensioning shaft and support shaft for transporting electricity The conveyer belt of machine rotor, the conveyor belt two sides are provided with driving device and oiling station；The driving device includes motor The shaft of driving, the shaft are rotatably connected in the rack above transfer device, and the roller end is fixed with equipped with double wedge Driving wheel, the driving wheel is engaged with first gear, and first gear is fixed with the gear shaft of rotation connection on the rack, described Gear shaft is connect with tensioning shaft by tape handler；The end face eccentric of the driving wheel is provided with the first convex block, further includes turning Dynamic connection swing component on the rack, the swing component include swing arm and sector gear, and the swing arm is axially disposed to be had for the First groove of one convex block sliding；

The oiling station includes the cylinder being arranged in below swing component, and the piston rod of cylinder is far from transfer device and fixation On the rack, the cylinder periphery is equipped with the second gear engaged with sector gear, and the cylinder piston side wall is equipped with second Groove is additionally provided with movable second convex block in the second groove, the cylinder side in cylinder piston rod side on the cylinder inner wall Wall is equipped with inlet valve and delivery valve, and inlet valve is connected with antirust fuel tank, offers oil groove in cylinder bottom, cover on the oil groove It is stamped painting device flexible, oil pipe is equipped in the cylinder sidewall between the delivery valve and oil groove；Far from cylinder piston rod The cylinder sidewall of side be equipped with breather check valve and outgassing nonreturn valve, on painting device side wall be equipped with jet thrust, it is described go out Gas check valve is connected to jet thrust by pipeline；

The working principle of this base case is:

Before present apparatus starting, the rotor to oiling is placed on a moving belt, while opening and being arranged in conveyer belt The driving device of two sides, wherein driving device drives the concrete operating principle of transfer device are as follows:

The motor for opening connection shaft passes through the double wedge being arranged on driving wheel so that shaft inverts simultaneously with driving wheel It is engaged with first gear, so that first gear is rotated forward with gear shaft, while tensioning shaft is by being connected to gear shaft and tensioning Tape handler on axis rotates, so that conveyer belt moves forward, setting in this way is in order to which grease device is reserved More space avoids being arranged between mechanism excessively compact locked problem occur.

Driving device also driving oiling station work, concrete operating principle while driving transfer device mobile are as follows: While driving wheel reversion, the first convex block on driving wheel rotates in the counterclockwise direction simultaneously, when the first convex block is from driving wheel Right end when moving to left end, the swing component being slidably connected with the first convex block deflects, wherein being located at below swing rod Sector gear is swung in the counterclockwise direction, since sector gear is engaged with the second gear on cylinder, sector gear it is counterclockwise Swing can make second gear do clockwise rotation, so that clockwise rotation occurs for cylinder block；Similarly, When the first convex block moves to right end from the left end of driving wheel, sector gear is swung along clockwise direction, so that the second tooth Wheel is rotated in an anti-clockwise direction with cylinder block.

It is set as follows in this programme, when cylinder block is rotated in the clockwise direction, the second convex block is in the second groove Interior sliding keeps cylinder block mobile to cylinder piston rod side, and when cylinder outer wall rotates in the counterclockwise direction, the second convex block exists Sliding makes cylinder block to far from the movement of piston rod side in second groove.

Therefore when cylinder block rotationally clockwise when, since the second convex block on cylinder inner wall makes cylinder block to work Stopper rod side is mobile and the piston rod of cylinder is fixedly connected on the rack, thus cylinder piston relative to cylinder block to remote It is mobile from piston rod side, therefore the gas in the cylinder block far from piston rod side can be squeezed and pass through outgassing nonreturn valve, into Enter pipeline finally to spray from jet thrust, ash disposal is carried out to rotor end face, since cylinder block is in the state of rotation at this time, The air-flow sprayed from jet thrust is not perpendicular acting in the end face of rotor, but air-flow is in certain under rotation status Distortion, so that the end face of air-flow and rotor is a certain included angle, such dedusting effect can be more preferable；In addition to rotor While ash disposal, due in the cylinder block of piston rod side be in negative pressure, at this time the antirust oil in antirust fuel tank from inlet valve into Enter in cylinder body.

With should cylinder block rotate in an anti-clockwise direction when, the second convex block on cylinder inner wall makes cylinder block to far from living Stopper rod side is mobile, i.e., mobile close to transfer device side, at the same cylinder piston relative to cylinder block to one sidesway of piston rod It is dynamic, and the intracorporal antirust oil of extrusion piston bar side cylinder, so that antirust oil is entered oil pipe from delivery valve and enters finally into oil groove, oil Antirust oil infiltration painting device flexible in slot makes painting device full of antirust oil, since cylinder block at this time is in rotation Simultaneously also in close transfer device, so that the end face to rotor that painting device squeezes while rotating carries out oiling, Uniform painting oil processing can be carried out to rotor end face in this way；In addition while to the oiling of rotor end face, due to remote It is in negative pressure in cylinder block from piston rod side, gas enters in cylinder body from breather check valve.

This base case has the technical effect that

1, this programme drives transfer device feeding motor rotor by setting driving device, while also driving oiling station pair Rotor carries out painting oil processing, significantly increases the speed of rotor oiling, and it is inefficient to solve manual oiling Problem.

2, the cylinder block of oiling station moves back and forth while rotation in this programme, and the effect being arranged in this way exists In: on the one hand, in deashing processing, the rotation of cylinder block makes air-flow with certain so that the air-flow that nozzle sprays is distorted Angle act on the end face of rotor, the metal fillings on rotor end-face can be blowed to preferably to the two sides of end face in this way, reached Preferable ash-removal effect；On the other hand, in oiling, cylinder block rotates so that painting device is directed at rotor while rotating End face is brushed, and can be obtained in this way to rotor end-face brushing more uniformly, and in addition in oiling, cylinder block is also close to electricity The problem of machine rotor plays the role of extruding to rotor end face, the position being avoided that so is not applied to.

3, this programme carries out deashing processing to the end face of rotor before oiling, thus is avoided that in next step oiling, Metal fillings on rotor is mixed in antirust oil reservoir, so that good rust-proof effect be not achieved.

4, in the present solution, being provided with driving device and oiling station in the two sides of conveyer belt, on the one hand motor can be turned Two end faces of son carry out painting oil processing simultaneously, not carry out operation on the other side manually, on the other hand the oiling the step of in, two Side painting device plays the role of extruding to rotor, avoids rotor mobile to side.

Further, the locating slot for placing rotor is evenly distributed on the conveyer belt.Setting on the one hand can be in this way It avoids rotor from sliding on a moving belt, painting device is on the other hand facilitated to carry out more accurate positioning to rotor.

Further, the painting device is sponge.Using sponge as painting device, the adsorption capacity ratio of one side sponge It is relatively strong, more antirust oil can be adsorbed, on the other hand when cylinder is mobile to make painting device squeeze rotor, sponge can It buffers this extruding force and sponge is also smaller to the friction of rotor.

Further, multiple delivery valves are equipped on the cylinder sidewall of cylinder piston rod side, between each delivery valve and oil groove It is connected to by oil pipe.Setting can provide enough antirust oil during an oiling in this way.

Further, multiple outgassing nonreturn valves are equipped on the cylinder sidewall far from cylinder piston rod side, each outlet is unidirectional Valve is connected to jet thrust.Setting is capable of providing more air-flows, such ash-removal effect in a deashing treatment process in this way More preferably.

Detailed description of the invention

Fig. 1 is the schematic diagram of car motor rotor automatic oiling device embodiment of the present invention；

Fig. 2 is A-A direction view in Fig. 1；

Fig. 3 is the cross-sectional view that oil groove is arranged in cylinder in car motor rotor automatic oiling device of the present invention；

Fig. 4 is the cross-sectional view that jet thrust is arranged in cylinder in car motor rotor automatic oiling device of the present invention.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description includes: tensioning shaft 100, support shaft 101, conveyer belt 102, locating slot 103, electricity Machine 200, shaft 201, driving wheel 202, double wedge 203, first gear 204, gear shaft 205, tape handler 206, the first convex block 207, swing arm 208, sector gear 209, the first groove 210, cylinder 300, second gear 301, the second groove 302, the second convex block 303, inlet valve 304, delivery valve 305, oil groove 306, oil pipe 307, sponge 308, breather check valve 309, outgassing nonreturn valve 310, Jet thrust 311.

It is as shown in Figures 1 and 2 the embodiment of the present invention, discloses car motor rotor automatic oiling device, the device It is made of three parts, including transporting the transfer device to oiling rotor, the driving dress that driving transfer device moves forward Set and apply to rotor the oiling station of oil processing；Wherein transfer device includes the tensioning of rotation connection on the rack Axis 100 and more support shafts 101, are rotatably connected to conveyer belt 102, conveyer belt 102 on tensioning shaft 100 and support shaft 101 On be evenly distributed with multiple locating slots 103 for placing rotors, wherein tensioning shaft 100 is for being tensioned conveyer belt 102, and supports Axis 101 is used to support conveyer belt 102.

In addition driving device includes the shaft 201 that motor 200 drives, and shaft 201 is rotatably connected on above transfer device In rack, it is fixedly installed with driving wheel 202 in the end of shaft 201, which is equipped with a double wedge 203, driving wheel 202 double wedge 203 is engaged with first gear 204, and such driving wheel 202 forms a gap with engaging for first gear 204 Movement mechanism, wherein first gear 204 is fixed on the gear shaft 205 of rotation connection on the rack, and gear shaft 205, which is mounted on, to be opened The surface of mandrel 100, in addition tensioning shaft 100 is connect with gear shaft 205 by tape handler 206, passes through motor 200 in this way Drive shaft 201 and driving wheel 202 rotate, and the double wedge 203 of driving wheel 202 is engaged with first gear 204 so that first gear 204 It is rotated with gear shaft 205, gear shaft 205 rotates tensioning shaft 100 by tape handler 206, and such transfer device is just real Show forward movement, when in addition setting one gear teeth of rotation of first gear 204 for the spacing of each locating slot 103, passes through transmission The transmitting of mechanism and tensioning shaft 100, the mobile distance of conveyer belt 102.

The first convex block 207 is prejudicially equipped on the end face of driving wheel 202, in the double wedge 203 and the first tooth of driving wheel 202 When the gear teeth meshing of wheel 204, the first convex block 207 is located at the top of driving wheel 202, is further provided with and is rotatablely connected on the rack Swing component, the swing component include swing arm 208 and the sector gear 209 for being connected to 208 lower section of swing arm, and wherein swing arm 208 is along axial direction It is provided with the first groove 210 for the sliding of the first convex block 207.

Oiling station includes the cylinder 300 being arranged in immediately below swing component, the piston rod of cylinder 300 far from transfer device simultaneously It is fixed on the rack, the cylinder body of cylinder 300 is rotatablely connected transmission of the bottom of cylinder 300 in transfer device on the rack Band 102, and corresponding with 103 position of locating slot at the tensioning shaft 100 is equipped with and sector gear in the periphery of cylinder 300 The second gear 301 of 209 engagements, is rotated by driving wheel 202, the first convex block 207 on driving wheel 202 is in the first groove in this way Movement is so that swing component swings back and forth in 210, and sector gear 209 is engaged with second gear 301 during swinging back and forth, So that 300 outer wall of cylinder rotates.

In addition as shown in figure 3, being equipped with the second groove 302 on the piston side wall of cylinder 300, the second groove 302 is curve The shape of groove, the curved slot is identical as the groove shapes on cylindrical cam, is additionally provided on 300 inner wall of cylinder recessed second The second convex block 303 slided in slot 302, is arranged are as follows: in the technical scheme when 300 cylinder body of cylinder is rotated in the clockwise direction When, the second convex block 303 slides in the second groove 302 keeps 300 cylinder body of cylinder mobile to 300 piston rod side of cylinder, works as cylinder When 300 outer walls rotate in the counterclockwise direction, the second convex block 303 slides in the second groove 302 makes 300 cylinder body of cylinder to far from living Stopper rod side is mobile.

Inlet valve 304 is equipped on 300 side wall of cylinder of 300 piston rod side of cylinder, inlet valve 304 is connected with antirust oil In addition case is filled with antirust oil in the side cylinder 300, multiple delivery valves 305 are additionally provided on 300 side wall of side cylinder, in gas 300 bottom of cylinder offers oil groove 306, and oil pipe 307 is equipped in 300 side wall of cylinder between each delivery valve 305 and oil groove 306, 300 bottom of cylinder is additionally provided with the flexible painting device being covered on oil groove 306, and wherein painting device can be extruded, and generates bullet Property deformation, the painting device in this programme is sponge 308, and in addition 300 cylinder body of cylinder in this programme and the diameter of sponge 308 are big In the diameter of rotor.

As shown in figure 4, being additionally provided with 309 He of breather check valve on 300 side wall of cylinder far from 300 piston rod side of cylinder Multiple outgassing nonreturn valves 310, wherein each outgassing nonreturn valve 310 is connected on a root canal road, the other end of pipeline is in sponge 308 Side wall is equipped with jet thrust 311.

In addition to two end faces to rotor carry out brush oil processing simultaneously, it is respectively provided in the two sides of conveyer belt 102 There are driving device and oiling station.

When specific works, before present apparatus starting, the rotor to oiling is placed on to the locating slot of conveyer belt 102 In 103, while the driving device that 102 two sides of conveyer belt are set is opened, wherein the specific work of driving device driving transfer device Make process are as follows:

The motor 200 of connection shaft 201 is opened, so that shaft 201 rotates simultaneously with driving wheel 202, by being arranged in master Double wedge 203 on driving wheel 202 is engaged with first gear 204, so that first gear 204 rotates with gear shaft 205, is opened simultaneously Mandrel 100 is rotated by being connected to gear shaft 205 with the tape handler 206 on tensioning shaft 100, in order to make transfer device Constantly mobile to the direction of tensioning shaft 100, first gear 204 is to rotate forward, therefore driving wheel 202 is reversion, additionally, due to we When case is provided with 103 spacing of locating slot and is equal to first gear 204 and rotates a gear teeth, pass through transmission mechanism and tensioning shaft 100 Transmitting, the mobile distance of conveyer belt 102, therefore first gear 204 is every rotates, transfer device just moves forward a positioning The spacing of slot 103 thereby realizes the continuous transfer of rotor.

In addition driving device also driving oiling station work, specific work process while driving transfer device mobile Are as follows: while driving wheel 202 inverts, the first convex block 207 on driving wheel 202 moves in the counterclockwise direction simultaneously, when first When convex block 207 moves to left end from the right end of driving wheel 202, occur with the swing component that the first convex block 207 is slidably connected inclined Turn, wherein the sector gear 209 being located at below swing rod is swung in the counterclockwise direction, due on sector gear 209 and cylinder 300 Second gear 301 engages, and the counter-clockwise swing of sector gear 209 can make second gear 301 do clockwise rotation, thus So that 300 cylinder body of cylinder rotates.

In the present solution, when 300 cylinder body of cylinder rotationally clockwise when, the second convex block 303 on 300 inner wall of cylinder makes 300 cylinder body of cylinder is mobile to piston rod side, and since the piston rod of cylinder 300 is fixedly connected on the rack, cylinder 300 is living Plug is mobile to separate piston rod side relative to 300 cylinder body of cylinder, therefore can squeeze 300 cylinder body of cylinder far from piston rod side Interior gas is finally sprayed from jet thrust 311 by outgassing nonreturn valve 310, into pipeline, is removed to 200 rotor end-face of motor Ash；It is at this time in negative pressure in 300 cylinder body of cylinder of piston rod side, the antirust oil in antirust fuel tank enters cylinder body from inlet valve 304 It is interior.

Similarly, when the first convex block 207 moves to right end from the left end of driving wheel 202, sector gear 209 is along up time Needle direction is swung, so that second gear 301 is rotated in an anti-clockwise direction with 300 cylinder body of cylinder, second on 300 inner wall of cylinder Convex block 303 makes 300 cylinder body of cylinder to far from the movement of piston rod side, i.e., close to the movement of transfer device side, while cylinder 300 is living Plug is mobile to piston rod side relative to 300 cylinder body of cylinder, and the intracorporal antirust oil of extrusion piston bar side cylinder, make antirust oil from Delivery valve 305 enters finally into oil groove 306 into oil pipe 307, and the antirust oil infiltration sponge 308 in oil groove 306 makes sponge 308 are full of antirust oil, due to 300 cylinder body of cylinder at this time while rotation also close to transfer device, thus sponge 308 with While cylinder block rotates, also in the end face for squeezing 200 rotor of motor, therefore sponge 308 can be to 200 rotor end-face of motor Carry out uniform painting oil processing；It is at this time in negative pressure in 300 cylinder body of cylinder far from piston rod side, gas is from breather check valve 309 enter in cylinder body.

What has been described above is only an embodiment of the present invention, and the common sense such as well known specific structure and characteristic are not made herein in scheme Excessive description.It, without departing from the structure of the invention, can be with it should be pointed out that for those skilled in the art Several modifications and improvements are made, these also should be considered as protection scope of the present invention, these all will not influence what the present invention was implemented Effect and patent practicability.The scope of protection required by this application should be based on the content of the claims, in specification The records such as specific embodiment can be used for explaining the content of claim.

Claims (5)

1. car motor rotor automatic oiling device, including transfer device, the transfer device includes being rotatablely connected on the rack Tensioning shaft and support shaft, the conveyer belt for transporting rotor is rotatably connected on the tensioning shaft and support shaft, it is special Sign is: the two sides of the conveyer belt are provided with driving device and oiling station, and the driving device includes motor-driven Shaft, the shaft are rotatably connected in the rack above transfer device, and the roller end is fixed with the active equipped with double wedge Wheel, the driving wheel are engaged with first gear, and first gear is fixed with the gear shaft of rotation connection on the rack, the gear shaft It is connect with tensioning shaft by tape handler；The end face eccentric of the driving wheel is provided with the first convex block, further includes rotation connection Swing component on the rack, the swing component include swing arm and sector gear, and the swing arm is axially disposed to be had for the first convex block First groove of sliding；

The oiling station includes the cylinder being arranged in below swing component, and the piston rod of cylinder far from transfer device and is fixed on machine On frame, the cylinder periphery is equipped with the second gear engaged with sector gear, and the cylinder piston side wall is equipped with the second groove, It is additionally provided with movable second convex block in the second groove on the cylinder inner wall, is set on the cylinder sidewall of cylinder piston rod side There are inlet valve and delivery valve, inlet valve is connected with antirust fuel tank, offers oil groove in cylinder bottom, is covered on the oil groove soft Property painting device, be equipped with oil pipe in cylinder sidewall between the delivery valve and oil groove；In separate cylinder piston rod side Cylinder sidewall is equipped with breather check valve and outgassing nonreturn valve, and jet thrust is equipped on painting device side wall, and the outlet is unidirectional Valve is connected to jet thrust by pipeline.

2. car motor rotor automatic oiling device according to claim 1, it is characterised in that: on the conveyer belt uniformly The locating slot for placing rotor is distributed with.

3. car motor rotor automatic oiling device according to claim 2, it is characterised in that: the painting device is sea It is continuous.

4. car motor rotor automatic oiling device according to claim 3, it is characterised in that: in cylinder piston rod side Cylinder sidewall be equipped with multiple delivery valves, be connected between each delivery valve and oil groove by oil pipe.

5. car motor rotor automatic oiling device according to claim 4, it is characterised in that: far from cylinder piston rod The cylinder sidewall of side is equipped with multiple outgassing nonreturn valves, and each outgassing nonreturn valve is connected to jet thrust.