CN110369326A - A kind of automotive hub qualified product screening plant - Google Patents

Abstract

A kind of automotive hub qualified product screening plant disclosed by the invention, including checking machine, the testing cavity of opening to the left is equipped in the checking machine, the testing cavity left end connection is equipped with waste chamber, inspection body is equipped in the testing cavity upper wall, power cavity is equipped in the checking machine right wall, power mechanism is equipped in the power cavity, the configuration of the present invention is simple, maintenance convenience, it is easy to use, the present apparatus can be in the case where not influencing production efficiency, automatically wheel hub is checked one by one, the wheel hub for not meeting quality requirements can be rejected timely simultaneously, and then wheel hub quality can be greatly promoted, underproof wheel hub product is also timely collected simultaneously, wait working process again.

Description

A kind of automotive hub qualified product screening plant

Technical field

The present invention relates to automotive hub manufacturing field, specially a kind of automotive hub qualified product screening plant.

Background technique

As automobile industry continues to develop, the scale of auto Parts Industry is also increasing, and wheel hub is that automobile must not One of the component that can lack, while being also one of higher components of quality requirement, if wheel hub quality dissatisfaction, it is possible to lead Automobile is caused when driving, traffic accidents to occur on road, it is therefore desirable to carry out quality to it in wheel hub manufacture production link It examines, underproof wheel hub is timely rejected, and melt down resetting again, and traditional inspection equipment, it is complicated for operation, when inspection Between it is longer, pipeline mode can not be adapted to, producer often selects with the mode inspected by random samples, to examine to a batch of wheel hub It tests, therefore needs to develop a kind of device that can be tested on assembly line to wheel hub, in the case where not influencing production efficiency, Wheel hub can be checked one by one, and then promote wheel hub quality.

Summary of the invention

Technical problem: traditional inspection equipment, complicated for operation, Check-Out Time is longer, can not adapt to pipeline mode.

To solve the above problems, this example devises a kind of automotive hub qualified product screening plant, a kind of automotive wheels of this example Hub qualified product screening plant, including checking machine, the checking machine is interior to be equipped with the testing cavity of opening to the left, and the testing cavity can be placed Wheel hub, the testing cavity left end connection are equipped with waste chamber, and the waste chamber can store the underproof wheel hub, the testing cavity Inspection body is equipped in upper wall, the inspection body can pressurize to the wheel hub, and then can quality to the wheel hub into Performing check, the checking machine right wall is interior to be equipped with power cavity, and power mechanism is equipped in the power cavity, is set in the power cavity left wall There is screening chamber, the screening is intracavitary to be equipped with sorting mechanism, and the sorting mechanism is connect with the power mechanism, and then when starting institute Power mechanism is stated, the power mechanism can drive the sorting mechanism, and the sorting mechanism can push away the underproof wheel hub Enter in the waste chamber, waiting re-works, and control mechanism is equipped in the power cavity lower wall, and the control mechanism is moved with described Force mechanisms engagement connection, and then the power mechanism can drive the control mechanism, the control mechanism left end rotation connection is set There is transport mechanism, the transport mechanism can transmit the wheel hub, and then the not verified wheel hub is sent into the testing cavity It examines, will be transmitted by the wheel hub examined into lower one of manufacturing procedure.Wherein, the power mechanism includes being fixedly arranged on institute The main motor in power cavity is stated, is connected by power on the main motor equipped with main power shaft, the main power shaft left end and the sieve Mechanism is selected to connect, when starting the main motor, the main motor drives the main power shaft rotation, and the main power shaft in turn can The sorting mechanism is driven, the main power shaft right end is installed with first gear, and the first gear lower end engagement is connected with Second gear, the second gear axle center are installed with the first transmission shaft, and first transmission shaft is rotatably set to the power In chamber lower wall.

Valuably, drive cavity is equipped in the power cavity lower wall, first transmission shaft lower end extends into the drive cavity Interior, the drive cavity is equipped with rotatable third gear, and the third gear is fixedly arranged on first transmission shaft lower end, and described the The engagement of three gear left ends is connected with the 4th gear, and the 4th gear left end is connect with the control mechanism, when the active The rotation of power axis, the main power shaft drive first transmission shaft to rotate by the first gear and the second gear, institute It states the first transmission shaft and then the control mechanism can be driven by the third gear and the 4th gear.

Wherein, the sorting mechanism includes the electromagnet being fixedly arranged on the screening chamber between lower wall, and the electromagnet is left End is installed with stretchable electromagnet spring, and electromagnet spring left end, which is installed with, to horizontally slip the screening is intracavitary Magnetic slider is connected with hollow shaft in the magnetic slider, can relatively rotate between the hollow shaft and the magnetic slider, The hollow shaft sleeve is set to the main power shaft left end, and the hollow shaft is connect with the main power shaft by spline, Jin Ersuo Stating hollow shaft can horizontally slip on the main power shaft, and the hollow shaft left end is installed with the first transmission gear.

Valuably, screening chamber lower end connection is equipped with push plate chamber, equipped with rotatable the in lower wall on the screening chamber One control shaft, the second transmission gear is installed in first control shaft, and second transmission gear can be with first transmission Gear engagement, first control shaft are installed with third transmission gear, and the third transmission gear is located at second driving cog Lower end is taken turns, the engagement of third transmission gear rear end is connected with the 4th transmission gear, and the 4th transmission gear axle center is fixed There is the second control shaft, second control shaft is rotatably set in the screening chamber front and rear wall, solid in second control shaft Equipped with push plate gear, the push plate gear is located at third transmission gear rear end, and the engagement connection of push plate gear lower end is set There is push plate, when main power shaft rotation, the main power shaft drives the hollow shaft and first transmission gear rotation, Start the electromagnet at this time, the electromagnet can repel the magnetic slider in turn, and the electromagnet in turn can be by described Electromagnet spring drives the magnetic slider to slide to the left, so that first transmission gear and second transmission gear Engagement, so that the hollow shaft drives first control shaft to turn by first transmission gear and second transmission gear Dynamic, first control shaft drives second control shaft to turn by the third transmission gear and the 4th transmission gear Dynamic, second control shaft can drive the push plate horizontally slip by the push plate gear in turn, when the push plate is slided to the left When dynamic, the wheel hub can be pushed into the waste chamber by the push plate, when the push plate is slided to the right, can slide into the push plate It is intracavitary.

Wherein, the control mechanism includes the first locating shaft being rotatably set in the control chamber, and described first is fixed First bevel gear is installed on the axis of position, the first bevel gear right end engagement is connected with second bevel gear, the second cone tooth Wheel axle center is installed with the second locating shaft, and second locating shaft is rotatably set in the control chamber right wall, and described second is fixed Position axis right end extends into the drive cavity, and the second locating shaft right end and the 4th gear are connected, when the 4th tooth When wheel rotation, the 4th gear drives the second locating shaft rotation, and second locating shaft passes through the second bevel gear First locating shaft can be driven to rotate in turn with the first bevel gear, be installed with control gear on first locating shaft, The control gear is located at the first bevel gear rear end, and the control gear upper part engagement is connected with positioning gear, The positioning gear axis is installed with third locating shaft, and the positioning gear can only drive the third locating shaft to turn counterclockwise Dynamic, the third locating shaft is rotatably set in the control chamber front and rear wall, is installed with the first skin on the third locating shaft Belt wheel, first belt pulley is located at the positioning gear front end, is connected with the first belt on first belt pulley, described First belt left end is connect with the transport mechanism, when first locating shaft rotation, described in the first locating shaft drive Gear rotation is controlled, the control gear intermittent can drive the positioning tooth wheel rotation, so that positioning gear interval Property the drive third locating shaft rotated counterclockwise, the third locating shaft passes through in turn drives the first belt pulley and institute State the driving transport mechanism of the first belt intermittence.

Wherein, the transport mechanism includes the first transmission shaft being rotatably set in the transmission cavity, and described first passes It send and is installed with the second belt pulley on axis, second belt pulley is connect with first belt left end, on first transmission shaft It is installed with the first driving gear, first driving gear left end, which is engaged, is connected with the second driving gear, in the testing cavity Front and back is symmetrically arranged with the second transmission shaft.

Valuably, the second transmission shaft right end positioned at front end is extended into the transmission cavity and is driven with described second The axle center of gear is connected, symmetrical on second transmission shaft to set there are two transmission wheel, and two on front-rear direction It is equipped with feed belt in the transmission wheel, when the first belt drives the first transmission shaft rotation by second belt pulley When, first transmission shaft is moved second transmission shaft and is turned by the first driving gear and the second driving gear band Dynamic, second transmission shaft can drive the transmission wheel and the feed belt to rotate in turn, and the feed belt can pass in turn Send the wheel hub.

Wherein, the inspection body includes the hydraulic pump being fixedly arranged in the checking machine, and the hydraulic pump upper end connection is set There is inlet line, the inlet line right end connection is equipped with shoe cream room, can store hydraulic oil, the hydraulic pump in the shoe cream room Lower end connection is equipped with oil outlet pipe, and the oil outlet pipe lower end connection is equipped with piston cylinder, is equipped with plunger shaft, institute in the piston cylinder It states and is equipped with the piston rod that can slide up and down in plunger shaft, the piston cylinder right end connection is equipped with oil return line, the oil return line Upper end is connected to the shoe cream room, and when starting the hydraulic pump, the hydraulic pump can pass through the hydraulic oil in the shoe cream room The inlet line and the oil outlet pipe are pumped into the plunger shaft and are located at the piston rod upper end, while the plunger shaft Interior original hydraulic oil is flowed back into the shoe cream room by the oil return line, so that the piston rod glides, and then can be right The wheel hub pressurizes, to examine the crushing resistance of the wheel hub, when after the test, the hydraulic pump starts to invert, described Hydraulic pump by the hydraulic oil of the piston rod upper end by shoe cream room described in the oil outlet pipe and the inlet line blowback, The hydraulic oil of the shoe cream room lower end is flowed back into the plunger shaft by the oil return line, so that on the piston rod It rises.

The beneficial effects of the present invention are: the configuration of the present invention is simple, maintenance convenience, easy to use, the present apparatus can not influence In the case where production efficiency, automatically wheel hub is checked one by one, while can be timely to the wheel hub for not meeting quality requirements Carry out reject, and then wheel hub quality can be greatly promoted, while underproof wheel hub product is also timely collected, waited Again working process.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is a kind of overall structure diagram of automotive hub qualified product screening plant of the invention；

Fig. 2 is the structural schematic diagram of " A " of Fig. 1；

Fig. 3 is the structural schematic diagram of " B " of Fig. 1.

Specific embodiment

Below with reference to Fig. 1-Fig. 3, the present invention is described in detail, for sake of convenience, now provides to hereafter described orientation As follows: hereafter described front-rear direction up and down is consistent with the front-rear direction up and down of Fig. 1 projection relation itself.

The present invention relates to a kind of automotive hub qualified product screening plant, the inspection being mainly used in automotive hub production process It tests and screens, the present invention will be further described below in conjunction with attached drawing of the present invention:

A kind of automotive hub qualified product screening plant of the present invention, including checking machine 11, interior be equipped with of checking machine 11 are opened The testing cavity 700 of mouth to the left, the testing cavity 700 can place wheel hub 37, and 700 left end of the testing cavity connection is equipped with waste chamber 36, the waste chamber 36 can store the underproof wheel hub 37, be equipped with inspection body 701, institute in 700 upper wall of testing cavity Stating inspection body 701 can pressurize to the wheel hub 37, and then can test to the quality of the wheel hub 37, the inspection It is equipped with power cavity 100 in 11 right wall of machine, power mechanism 101 is equipped in the power cavity 100, is set in 100 left wall of power cavity There is screening chamber 200, sorting mechanism 201 is equipped in the screening chamber 200, the sorting mechanism 201 connects with the power mechanism 101 It connects, and then when starting the power mechanism 101, the power mechanism 101 can drive the sorting mechanism 201, the screening machine The underproof wheel hub 37 can be pushed into the waste chamber 36 by structure 201, and waiting re-works, 100 lower wall of power cavity Interior to be equipped with control mechanism 401, the control mechanism 401 engages connection, and then the power mechanism with the power mechanism 101 101 can drive the control mechanism 401, and 401 left end of the control mechanism rotation connection is equipped with transport mechanism 501, the transmission Mechanism 501 can transmit the wheel hub 37, and then the not verified wheel hub 37 is sent into the testing cavity 700 and is examined, and will lead to The wheel hub 37 examined is crossed to transmit into lower one of manufacturing procedure.

According to embodiment, the power mechanism 101 is described in detail below, the power mechanism 101 includes fixed Main motor 21 in the power cavity 100 is connected by power equipped with main power shaft 22, the main power shaft on the main motor 21 22 left ends are connect with the sorting mechanism 201, and when starting the main motor 21, the main motor 21 drives the main power shaft 22 Rotation, the main power shaft 22 can drive the sorting mechanism 201 in turn, and 22 right end of main power shaft is installed with first gear 23,23 lower end of the first gear engagement is connected with second gear 24, and 24 axle center of second gear is installed with the first transmission Axis 25, first transmission shaft 25 are rotatably set in 100 lower wall of power cavity.

Valuably, drive cavity 600 is equipped in 100 lower wall of power cavity, 25 lower end of the first transmission shaft extends into institute It states in drive cavity 600, the drive cavity 600 is equipped with rotatable third gear 26, and the third gear 26 is fixedly arranged on described the One transmission shaft, 25 lower end, 26 left end of third gear engagement are connected with the 4th gear 27,27 left end of the 4th gear with The control mechanism 401 connects, and when the main power shaft 22 rotates, the main power shaft 22 passes through the first gear 23 and institute Stating second gear 24 drives first transmission shaft 25 to rotate, and first transmission shaft 25 can pass through the third gear 26 in turn The control mechanism 401 is driven with the 4th gear 27.

According to embodiment, the sorting mechanism 201 is described in detail below, the sorting mechanism 201 includes fixed In the electromagnet 44 on the screening chamber 200 between lower wall, 44 left end of electromagnet is installed with stretchable electromagnet spring 45,45 left end of electromagnet spring is installed with the magnetic slider 41 that can be horizontally slipped in the screening chamber 200, the magnetism It is connected with hollow shaft 42 on sliding block 41, can be relatively rotated between the hollow shaft 42 and the magnetic slider 41, it is described hollow Axis 42 is sheathed on 22 left end of main power shaft, and the hollow shaft 42 is connect with the main power shaft 22 by spline, Jin Ersuo Stating hollow shaft 42 can horizontally slip on the main power shaft 22, and 42 left end of hollow shaft is installed with the first transmission gear 39.

Valuably, 200 lower end of the screening chamber connection is equipped with push plate chamber 300, and being equipped in lower wall on the screening chamber 200 can First control shaft 47 of rotation is installed with the second transmission gear 46, second transmission gear 46 in first control shaft 47 It can be engaged with first transmission gear 39, first control shaft 47 is installed with third transmission gear 48, the third transmission Gear 48 is located at 46 lower end of the second transmission gear, and 48 rear end of the third transmission gear engagement is connected with the 4th driving cog Wheel 51,51 axle center of the 4th transmission gear are installed with the second control shaft 52, and second control shaft 52 is rotatably set to institute It states in screening 200 front and rear wall of chamber, push plate gear 49 is installed in second control shaft 52, the push plate gear 49 is located at described 48 rear end of third transmission gear, 49 lower end of the push plate gear engagement are connected with push plate 53, when the main power shaft 22 rotates When, the main power shaft 22 drives the hollow shaft 42 and first transmission gear 39 to rotate, and starts the electromagnet at this time 44, the electromagnet 44 can repel the magnetic slider 41 in turn, and the electromagnet 44 can pass through the electromagnet spring in turn 45 drive the magnetic slider 41 to slide to the left, so that first transmission gear 39 is nibbled with second transmission gear 46 It closes, so that the hollow shaft 42 drives first control by first transmission gear 39 and second transmission gear 46 Axis 47 rotates, and first control shaft 47 drives described the by the third transmission gear 48 and the 4th transmission gear 51 The rotation of two control shafts 52, second control shaft 52 can drive the push plate 53 or so sliding by the push plate gear 49 in turn Dynamic, when the push plate 53 is slided to the left, the wheel hub 37 can be pushed into the waste chamber 36 by the push plate 53, be pushed away when described When plate 53 slides to the right, it can slide into the push plate chamber 300.

According to embodiment, the control mechanism 401 is described in detail below, the control mechanism 401 includes that can turn Dynamic the first locating shaft 66 being set in the control chamber 400 is installed with first bevel gear 65, institute on first locating shaft 66 It states the engagement of 65 right end of first bevel gear and is connected with second bevel gear 67,67 axle center of second bevel gear is installed with the second positioning Axis 28, second locating shaft 28 are rotatably set in 400 right wall of control chamber, and 28 right end of the second locating shaft extends Enter in the drive cavity 600,28 right end of the second locating shaft and the 4th gear 27 are connected, when described 27 turns of 4th gear When dynamic, the 4th gear 27 drives second locating shaft 28 to rotate, and second locating shaft 28 passes through the second cone tooth Wheel 67 and the first bevel gear 65 can drive first locating shaft 66 to rotate in turn, be installed on first locating shaft 66 Gear 64 is controlled, the control gear 64 is located at 65 rear end of first bevel gear, 64 upper part of the control gear engagement It is connected with positioning gear 54,54 axle center of positioning gear is installed with third locating shaft 56, and the positioning gear 54 can only band It moves the third locating shaft 56 to rotate counterclockwise, the third locating shaft 56 is rotatably set to 400 front and rear wall of control chamber It is interior, the first belt pulley 55 is installed on the third locating shaft 56, before first belt pulley 55 is located at the positioning gear 54 It holds, the first belt 57 is connected on first belt pulley 55,57 left end of the first belt and the transport mechanism 501 connect It connects, when first locating shaft 66 rotation, first locating shaft 66 drives the control gear 64 to rotate, the control tooth Wheel 64 intermittent can drive the positioning gear 54 to rotate, and drive the third fixed so that the positioning gear 54 is intermittent Position axis 56 is rotated counterclockwise, and the third locating shaft 56 is in turn by driving the first belt pulley 55 and first belt 57 The intermittent driving transport mechanism 501.

According to embodiment, the transport mechanism 501 is described in detail below, the transport mechanism 501 includes that can turn Dynamic the first transmission shaft 63 being set in the transmission cavity 500 is installed with the second belt pulley 59, institute on first transmission shaft 63 It states the second belt pulley 59 to connect with 57 left end of the first belt, the first driving gear is installed on first transmission shaft 63 58, first driving, 58 left end of gear engagement is connected with the second driving gear 62, and front and back is symmetrically set in the testing cavity 700 There is the second transmission shaft 61.

Valuably, 61 right end of the second transmission shaft positioned at front end extends into the transmission cavity 500 and with described The axle center of two driving gears 62 is connected, symmetrical on second transmission shaft 61 to set there are two transmission wheel 32, is located at front and back It is equipped with feed belt 31 in two transmission wheels 32 on direction, when the first belt 57 passes through 59 band of the second belt pulley When moving first transmission shaft 63 rotation, first transmission shaft 63 passes through the first driving gear 58 and second driving Gear 62 drives second transmission shaft 61 to rotate, and second transmission shaft 61 can drive the transmission wheel 32 and the biography in turn Belt 31 is sent to rotate, the feed belt 31 can transmit the wheel hub 37 in turn.

According to embodiment, the inspection body 701 is described in detail below, the inspection body 701 includes fixed Hydraulic pump 13 in the checking machine 11,13 upper end of the hydraulic pump connection are equipped with inlet line 12, the inlet line 12 Right end connection is equipped with shoe cream room 18, and hydraulic oil can be stored in the shoe cream room 18, and 13 lower end of the hydraulic pump connection is equipped with fuel-displaced Pipeline 14,14 lower end of the oil outlet pipe connection are equipped with piston cylinder 15, are equipped with plunger shaft 16, the piston in the piston cylinder 15 The piston rod 17 that can slide up and down is equipped in chamber 16,15 right end of the piston cylinder connection is equipped with oil return line 19, the oil return pipe 19 upper end of road is connected to the shoe cream room 18, and when starting the hydraulic pump 13, the hydraulic pump 13 can will be in the shoe cream room 18 Hydraulic oil be pumped into the plunger shaft 16 by the inlet line 12 and the oil outlet pipe 14 and be located at the piston rod 17 upper ends, while original hydraulic oil is flowed back into the shoe cream room 18 by the oil return line 19 in the plunger shaft 16, It so that the piston rod 17 glides, and then can pressurize to the wheel hub 37, to examine the crushing resistance of the wheel hub 37, work as examination After testing, the hydraulic pump 13 starts to invert, and the hydraulic pump 13 passes through the hydraulic oil of 17 upper end of piston rod described In shoe cream room 18 described in 12 blowback of oil outlet pipe 14 and the inlet line, the hydraulic oil of 18 lower end of shoe cream room passes through described Oil return line 19 flows back into the plunger shaft 16, so that the piston rod 17 rises.

It is carried out below in conjunction with use step of the Fig. 1 to Fig. 3 to one of this paper automotive hub qualified product screening plant detailed It describes in detail bright:

When test to automotive hub screen when, start main motor 21, main motor 21 drive main power shaft 22 rotate, active force Axis 22 drives the rotation of the first transmission shaft 25 by first gear 23 and second gear 24, and the first transmission shaft 25 passes through third gear 26 The rotation of the second locating shaft 28 is driven with the 4th gear 27, the second locating shaft 28 passes through 65 band of second bevel gear 67 and first bevel gear Dynamic first locating shaft 66 rotation, the first locating shaft 66 drive control gear 64 to rotate, when control gear 64 and positioning gear 54 are nibbled When conjunction, control gear 64 drives positioning gear 54 to rotate counterclockwise, and positioning gear 54 drives third locating shaft 56 to rotate, and third is fixed Position axis 56 drives the rotation of the first transmission shaft 63, the first transmission by the first belt pulley 55, the first belt 57 and the second belt pulley 59 Axis 63 drives the rotation of the second transmission shaft 61, the second transmission shaft 61 and then band by the first driving gear 58 and the second driving gear 62 Transmission wheel 32 and the rotation of feed belt 31 are moved, and then to be tested in transport wheel hub 37 to testing cavity 700 etc., is specified when wheel hub 37 arrives Behind position, control gear 64 is separated with positioning gear 54, and then feed belt 31 and transmission wheel 32 stop operating, and start liquid at this time Press pump 13, hydraulic pump 13 hydraulic oil in shoe cream room 18 is pumped into plunger shaft 16 by inlet line 12 and oil outlet pipe 14 and Positioned at 17 upper end of piston rod, while in plunger shaft 16, original hydraulic oil is flowed back into shoe cream room 18 by oil return line 19, is made It must start the downslide of piston rod 17, and then 17 lower wall surface of piston rod is contacted with wheel hub 37 and pressurizeed to wheel hub 37, is examined with this The crushing resistance for testing wheel hub 37, when after the test, hydraulic pump 13 starts to invert, hydraulic pump 13 is by the hydraulic oil of 17 upper end of piston rod By the way that in 12 blowback shoe cream room 18 of oil outlet pipe 14 and inlet line, the hydraulic oil of 18 lower end of shoe cream room is returned by oil return line 19 It flows in plunger shaft 16, so that piston rod 17 rises, if wheel hub 37 manually starts electromagnet not by detection at this time 44, electromagnet 44 starts to repel magnetic slider 41, and electromagnet 44 drives magnetic slider 41 to the left by electromagnet spring 45 in turn Sliding, so that the first transmission gear 39 is engaged with the second transmission gear 46, main power shaft 22 is passed by hollow shaft 42, first in turn Moving gear 39 and the second transmission gear 46 drive the rotation of the first control shaft 47, and the first control shaft 47 passes through 48 He of third transmission gear 4th transmission gear 51 drives the rotation of the second control shaft 52, and the second control shaft 52 drives push plate 53 to slide to the left by push plate gear 49 It is dynamic, so that not verified wheel hub 37 is pushed into waste chamber 36 by push plate 53, recovery processing is waited, subsequent main motor 21 is anti- Turn, so that main motor 21 drives main power shaft 22 to rotate, main power shaft 22 passes through hollow shaft 42, the first transmission gear 39 and second Transmission gear 46 drives the rotation of the first control shaft 47, and the first control shaft 47 passes through third transmission gear 48 and the 4th transmission gear 51 The second control shaft 52 is driven to rotate, the second control shaft 52 drives push plate 53 to slide into push plate chamber 300 to the right by push plate gear 49, If wheel hub 37 does not start electromagnet 44 by detection, control gear 64 engages again with positioning gear 54, positions 54 band of gear Dynamic third locating shaft 56 rotates, and third locating shaft 56 is driven by the first belt pulley 55, the first belt 57 and the second belt pulley 59 The rotation of first transmission shaft 63, the first transmission shaft 63 drive the second transmission shaft by the first driving gear 58 and the second driving gear 62 61 rotations, the second transmission shaft 61 and then drive transmission wheel 32 and feed belt 31 rotate, and then the wheel hub 37 inspected is transmitted Onto next manufacturing procedure, at the same next wheel hub 37 to be tested is to be tested to being transmitted in testing cavity 700 etc..

The beneficial effects of the present invention are: the configuration of the present invention is simple, maintenance convenience, easy to use, the present apparatus can not influence In the case where production efficiency, automatically wheel hub is checked one by one, while can be timely to the wheel hub for not meeting quality requirements Carry out reject, and then wheel hub quality can be greatly promoted, while underproof wheel hub product is also timely collected, waited Again working process.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (9)

1. a kind of automotive hub qualified product screening plant of the invention, including checking machine, the checking machine is interior to be equipped with opening to the left Testing cavity, testing cavity left end connection is equipped with waste chamber, is equipped with inspection body in the testing cavity upper wall；

It is equipped with power cavity in the checking machine right wall, power mechanism is equipped in the power cavity, is equipped in the power cavity left wall Chamber is screened, the screening is intracavitary to be equipped with sorting mechanism, and the sorting mechanism is connect with the power mechanism, the power cavity lower wall Interior to be equipped with control mechanism, the control mechanism engages connection with the power mechanism, and the control mechanism left end rotation connection is set There is transport mechanism.

2. a kind of automotive hub qualified product screening plant as described in claim 1, it is characterised in that: the power mechanism includes The main motor being fixedly arranged in the power cavity is connected by power equipped with main power shaft on the main motor, the main power shaft left end It is connect with the sorting mechanism, the main power shaft right end is installed with first gear, and the first gear lower end engagement connection is set There is second gear, the second gear axle center is installed with the first transmission shaft, and first transmission shaft is rotatably set to described dynamic In power chamber lower wall.

3. a kind of automotive hub qualified product screening plant as claimed in claim 2, it is characterised in that: in the power cavity lower wall Equipped with drive cavity, first transmission shaft lower end is extended into the drive cavity, and the drive cavity is equipped with rotatable third tooth Wheel, the third gear are fixedly arranged on first transmission shaft lower end, and the engagement of third gear left end is connected with the 4th gear, The 4th gear left end is connect with the control mechanism.

4. a kind of automotive hub qualified product screening plant as described in claim 1, it is characterised in that: the sorting mechanism includes It is fixedly arranged on the electromagnet on the screening chamber between lower wall, the electromagnet left end is installed with stretchable electromagnet spring, institute It states electromagnet spring left end and is installed with and can screen the intracavitary magnetic slider to horizontally slip described, connect and set in the magnetic slider There is hollow shaft, can be relatively rotated between the hollow shaft and the magnetic slider, the hollow shaft sleeve is set to the main power shaft Left end, the hollow shaft are connect with the main power shaft by spline, and then the hollow shaft can be left on the main power shaft Right sliding, the hollow shaft left end are installed with the first transmission gear.

5. a kind of automotive hub qualified product screening plant as claimed in claim 4, it is characterised in that: the screening chamber lower end connects It is logical to be equipped with push plate chamber, rotatable first control shaft is equipped on the screening chamber in lower wall, is installed in first control shaft Second transmission gear, second transmission gear can be engaged with first transmission gear, and first control shaft is installed with Three transmission gears, the third transmission gear are located at second transmission gear lower end, the engagement of third transmission gear rear end It is connected with the 4th transmission gear, the 4th transmission gear axle center is installed with the second control shaft, and second control shaft can turn Dynamic is set in the screening chamber front and rear wall, push plate gear is installed in second control shaft, the push plate gear is located at institute Third transmission gear rear end is stated, the engagement of push plate gear lower end is connected with push plate.

6. a kind of automotive hub qualified product screening plant as described in claim 1, it is characterised in that: the control mechanism includes The first locating shaft being rotatably set in the control chamber, is installed with first bevel gear on first locating shaft, and described the The engagement of one bevel gear right end is connected with second bevel gear, and the second bevel gear axle center is installed with the second locating shaft, and described the Two locating shafts are rotatably set in the control chamber right wall, and the second locating shaft right end extends into the drive cavity, institute It states the second locating shaft right end and the 4th gear is connected；

Control gear is installed on first locating shaft, the control gear is located at the first bevel gear rear end, the control Gear upper part engagement processed is connected with positioning gear, and the positioning gear axis is installed with third locating shaft, the positioning Gear can only drive the third locating shaft to rotate counterclockwise, and the third locating shaft is rotatably set to before and after the control chamber In wall, the first belt pulley is installed on the third locating shaft, first belt pulley is located at the positioning gear front end, described The first belt is connected on first belt pulley, first belt left end is connect with the transport mechanism.

7. a kind of automotive hub qualified product screening plant as described in claim 1, it is characterised in that: the transport mechanism includes The first transmission shaft being rotatably set in the transmission cavity, is installed with the second belt pulley on first transmission shaft, and described the Two belt pulleys are connect with first belt left end, and the first driving gear is installed on first transmission shaft, and described first drives The engagement of moving gear left end is connected with the second driving gear, and front and back is symmetrically arranged with the second transmission shaft in the testing cavity.

8. a kind of automotive hub qualified product screening plant as claimed in claim 7, it is characterised in that: positioned at described the of front end Two transmission shaft right ends are extended into the transmission cavity and are connected with the axle center of the second driving gear, on second transmission shaft It is symmetrical to set there are two transmission wheel, feed belt is equipped in two transmission wheels on front-rear direction.

9. a kind of automotive hub qualified product screening plant as described in claim 1, it is characterised in that: the inspection body includes The hydraulic pump being fixedly arranged in the checking machine, the hydraulic pump upper end connection are equipped with inlet line, and the inlet line right end connects It is logical to be equipped with shoe cream room, hydraulic oil can be stored in the shoe cream room, the hydraulic pump lower end connection is equipped with oil outlet pipe, described fuel-displaced The connection of pipeline lower end is equipped with piston cylinder, and plunger shaft is equipped in the piston cylinder, is equipped with the work that can slide up and down in the plunger shaft Stopper rod, the piston cylinder right end connection are equipped with oil return line, and the oil return line upper end is connected to the shoe cream room.