CN102029262B - Bearing ring leak working procedure detection machine - Google Patents

Abstract

The invention relates to a bearing ring leak working procedure detection machine which is characterized by comprising a feed roller path, a material storage groove, a material pushing mechanism, an external detection mould, a detection mechanism, an internal detection mould, a discharge roller path, a rejecting mechanism and the like, wherein the detection mechanism is used for detecting whether a bearing ring has the problem of leak processing by compressing the bearing ring to be detected in the external detection mould and the internal detection mould. The bearing ring leak working procedure detection machine replaces manual work and is used for leak working procedure detection of the bearing ring, thus lightening the labor intensity of workers, improving the detection efficiency, reducing the degree of participation of people and improving the reliability of detection.

Description

Bearing ring leak working procedure detection machine

Technical field

The present invention relates to a kind of checkout gear, especially relate to a kind of bearing ring leak working procedure detection machine.

Background technology

Bearing ring comprises inside race and outer collar, be processed with raceway, fillet etc. on it, bearing ring needs to check whether have the Lou problem of processing after processing, present this inspection is completed by range estimation by the workman usually, because bearing is large batch of production, therefore, workman's labour intensity is large, detection efficiency is low, and undetected phenomenon very easily occurs the artificial visually examine, thereby artificial visually examine's reliability is lower.

Summary of the invention

The applicant is studied improvement for above-mentioned problem, and a kind of bearing ring leak working procedure detection machine is provided, and alleviates workman's labour intensity, improves detection efficiency, and improves the reliability that detects.

In order to solve the problems of the technologies described above, the present invention adopts following technical scheme:

A kind of bearing ring leak working procedure detection machine comprises:

Frame, end face is equipped with working plate, and a side is equipped with side plate;

Control system is arranged on frame;

The swivel feeding dish is arranged on the working plate of frame;

Feeding track connects described swivel feeding dish;

The charging raceway tilts to be arranged on outside described side plate;

Stock chest is vertically mounted on outside described side plate, the described charging raceway of stock chest upper end connection;

Pusher is arranged on described framework lateral plate, comprises the pusher cylinder, and pushing head is arranged on the piston rod of pusher cylinder;

Detect external mold, be arranged on described framework lateral plate, the upper end of detecting external mold is provided with arc groove or V-type groove, detects the both sides that external mold and described pusher are arranged on described stock chest;

Testing agency is arranged on the inboard of described side plate;

Detect internal mold, connect described testing agency;

The discharging raceway tilts to be arranged on described framework lateral plate, connects described detection external mold;

Rejecting mechanism is arranged on the below of described discharging raceway, comprises the rejecting cylinder, and cover plate is arranged on the piston rod of rejecting cylinder, and cover plate covers on the rejecting mouth of discharging raceway.

Further:

Described testing agency comprises the inductive probe that is arranged on described working plate, support is arranged on the inboard of described side plate, line slideway and propulsion cylinder are rack-mount, pedestal is arranged on line slideway, testing stand is hinged by bearing pin and pedestal, testing stand consists of inverse-T-shaped by base and riser, support between the riser of testing stand and pedestal back-moving spring is housed, detect the front end that internal mold is arranged on the base of testing stand, inductive rod connects the riser of testing stand, and inductive rod extends to the position of described inductive probe; Advance seat is arranged on line slideway, distance rod is arranged on the piston rod of propulsion cylinder, the middle part of distance rod is provided with the conical shaft shoulder, the front portion of distance rod is provided with guide section, the guide section of distance rod slides in advance seat, propelling spring is sleeved on the guide section of distance rod and supports and is contained between the shaft shoulder and advance seat of distance rod, and resetting block is connected to the front end of distance rod; The riser of described testing stand is provided with roller, and roller relies on the spring force of back-moving spring to be against on distance rod.

Be set with connecting rod in described testing stand, connecting rod is fixed in testing stand by holding screw, detects the front end that internal mold is fixedly connected on described connecting rod.

The cross section of described connecting rod is rectangle.

The riser of described testing stand is provided with slotted hole, and bearing pin is fixedly mounted in described slotted hole by nut, and roller is arranged on bearing pin.

Described line slideway is provided with stroke adjustmenting screw.

Be provided with discharge baffle above the side of described detection external mold, discharge baffle is instead " √ " shape, discharge baffle rotatably is arranged on the side plate of described frame by bearing pin, the front end of discharge baffle extends to the side top of described detection external mold, the rear end of discharge baffle connects extension spring, and the top of discharge baffle is provided with the adjusting block.

Described detection external mold is arranged on the side plate of described frame by slotted hole.

The angle of inclination of described charging raceway is between 10 °～30 °.

The angle of inclination of described discharging raceway is between 5 °～20 °.

Technique effect of the present invention is:

A kind of bearing ring leak working procedure detection machine disclosed by the invention substitutes artificial leakage operation to bearing ring and detects, and alleviates workman's labour intensity, improves detection efficiency, and reduces people's degree of participation, improves the reliability of detection.

Description of drawings

Fig. 1 is three-dimensional structure schematic diagram of the present invention.

Fig. 2 is front view of the present invention.

Fig. 3 is the right view of Fig. 2.

Fig. 3 A is the K place enlarged drawing of Fig. 3.

Fig. 4 is that Fig. 2 is A-A place partial sectional view.

Fig. 5 is B-B place's partial sectional view (original state) of Fig. 3.

Fig. 6 is B-B place's partial sectional view (entering the detection position) of Fig. 3.

Fig. 6 A is the G place enlarged drawing of Fig. 6.

Fig. 7 is B-B place's partial sectional view (detection completing place) of Fig. 3.

Fig. 7 A is the H place enlarged drawing of Fig. 7.

Fig. 8 is the three-dimensional structure schematic diagram of testing agency.

Fig. 9 is the three-dimensional structure schematic diagram (another visual angle) of testing agency.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in further detail.

As shown in Fig. 1-9, the present invention includes frame 1, the end face of frame 1 is equipped with working plate 101, and a side of frame 1 is equipped with side plate 102, and control system is arranged on frame and (does not draw in the drawings), and control system is controlled the action of collaborative each parts.Swivel feeding dish 2 is arranged on the working plate 101 of frame 1, feeding track 3 connects the discharging opening of swivel feeding dish 2, swivel feeding dish 2 is prior art, and swivel feeding dish 2 is incited somebody to action wherein bearing ring by rotation and arranged and arrange, and bearing ring is pushed feeding track 3 one by one.Charging raceway 4 tilts to be arranged on the outside of side plate 102, stock chest 5 is vertically mounted on the outside of side plate 102, stock chest 5 upper ends connect charging raceway 4, and the upper end of charging raceway 4 connects feeding track 3, and bearing ring to be detected is sent into charging raceway 4 by feeding track 3.Charging raceway 4 consists of (Fig. 1,3) by the guidance tape 401 and the baffle plate 402 that tilt, stock chest 5 consists of (Fig. 1,3) by two vertical blocks 501, side shield 502 and lower shoe 503, bearing ring tumbles in stock chest 5 through feeding track 3, the angle of inclination C of charging raceway 4 is usually between 10 °～30 ° (Fig. 3), in the present embodiment, the angle of inclination C of charging raceway 4 is 15 °.Pusher 6 is arranged on the side plate 102 of frame 1, pusher 6 comprises pusher cylinder 601, pushing head 602 is arranged on the piston rod of pusher cylinder 601, detecting external mold 7 is arranged on the side plate 102 of frame 1, the upper end of detecting external mold 7 is provided with arc groove 702 (Fig. 3 A), arc groove 702 can make bearing ring 22 to be detected stably rest on and detect in external mold 7, and the V-type groove also can serve the same role; Detect external mold 7 and be arranged on by slotted hole 701 on the side plate 102 of frame 1, detect the installation site of external mold 7 by slotted hole 701 capable of regulatings, to adapt to the detection of different bearing rings; Detect the both sides that external mold 7 and pusher 6 are arranged on stock chest 5, by pusher 6, the bearing ring in stock chest 5 is pushed one by one and detect in external mold 7.Discharging raceway 10 tilts to be arranged on the side plate 102 of frame 1, one end of discharging raceway 10 connects detection external mold 7, the other end of discharging raceway 10 connects next process, discharging raceway 10 is made of the guidance tape 1001 and the baffle plate 1002 that tilt, the angle of inclination D of discharging raceway 10 is usually between 5 °～20 ° (Fig. 3), in the present embodiment, the angle of inclination D of discharging raceway 10 is 13 °.Rejecting mechanism 8 is arranged on the below of discharging raceway 10, rejecting mechanism 8 comprises rejects cylinder 801, cover plate (not drawing in the drawings) is arranged on the piston rod of rejecting cylinder 801, cover plate covers on the rejecting mouth of discharging raceway 10, when the piston rod of rejecting cylinder 801 is retracted, cover plate no longer covers on the rejecting mouth of discharging raceway 10, and the bearing ring of the process of rolling discharging raceway 10 falls to the collecting box 11 of below from rejecting mouth.Testing agency 9 is arranged on the inboard of side plate 102, testing agency 9 comprises the inductive probe 901 that is arranged on working plate 101, support 902 is arranged on the inboard of side plate 102, line slideway 904 and propulsion cylinder 905 are arranged on support 902, pedestal 903 is arranged on line slideway 904, in the present embodiment, line slideway 904 is provided with stroke adjustmenting screw 917, and stroke adjustmenting screw 917 is used for controlling and adjusting the stroke of line slideway 904.testing stand 906 is hinged by bearing pin 907 and pedestal 903, testing stand 906 consists of inverse-T-shaped by base 9061 and riser 9062, support between the riser 9062 of testing stand 906 and pedestal 903 back-moving spring 908 is housed, be set with connecting rod 909 in the base 9061 of testing stand 906, the cross section of connecting rod 909 is rectangle, connecting rod 909 can not rotated in base 9061, connecting rod 909 is fixed in the base 9061 of testing stand 906 by holding screw, detect the front end that internal mold 12 is fixedly connected on connecting rod 909, inductive rod 910 connects the riser 9062 of testing stand 906, and inductive rod 910 extends to position (Fig. 1 of inductive probe 901, Fig. 3), whether can the signal that detect inductive rod 910 with inductive probe 901 differentiate bearing ring qualified.advance seat 911 is arranged on line slideway 904, distance rod 912 is arranged on the piston rod of propulsion cylinder 905, the middle part of distance rod 912 is provided with the conical shaft shoulder 9121, the front portion of distance rod 912 is provided with guide section 9122, the guide section 9122 of distance rod slides in advance seat 911, propelling spring 913 is sleeved on the guide section 9122 of distance rod and supports and is contained between the shaft shoulder 9121 and advance seat 911 of distance rod, resetting block 914 is connected to the front end of distance rod 912, when detection is completed, resetting block 914 is under the driving of propulsion cylinder 905, drive each parts and be returned to initial position, the riser 9062 of testing stand 906 is provided with roller 915, roller 915 relies on the spring force of back-moving spring 908 to be against on distance rod 912, in the present embodiment, the riser 9062 of testing stand 906 is provided with slotted hole 9063 (Fig. 7, Fig. 8), bearing pin 916 is fixedly mounted on (Fig. 4, Fig. 9) in slotted hole 9063 by nut, roller 915 is arranged on bearing pin 916, and slotted hole 9063 can be convenient to adjust the height of roller 915.

as Fig. 1, 3, shown in 3A, be provided with discharge baffle 18 above the side of detection external mold 7, discharge baffle 18 is instead " √ " shape, discharge baffle 18 rotatably is arranged on the side plate 102 of frame 1 by bearing pin 20, the front end of discharge baffle 18 extends to the side top of detecting external mold 7, the rear end of discharge baffle 18 connects extension spring 19, the top of discharge baffle 18 is provided with regulates block 17, regulating block 17 is arranged on the side plate 102 of frame 1 by slotted hole 1701, regulate block 17 by slotted hole 1701 capable of regulatings, thereby adjust the front end and the relative position that detects external mold 7 of discharge baffle 18.Detect in external mold 7 when bearing ring 22 is pushed into, the front end of discharge baffle 18 blocks bearing ring 22, guarantees the position of bearing ring 22 in detecting external mold 7.

The present invention adjusts the position of detecting external mold 7, detection internal mold 12 when work, and adjusts the stroke adjustmenting screw 917 on line slideway 904, adjusts the impulse stroke of line slideway 904, can begin bearing ring is detected.the bearing ring 22 that need detect is put into swivel feeding dish 2, swivel feeding dish 2 is incited somebody to action wherein bearing ring 22 by rotation and is arranged and arrange, and bearing ring is pushed feeding track 3, bearing ring enters into charging raceway 4 one by one, bearing ring rolls into stock chest 5 automatically in the charging raceway 4 that tilts, the pusher cylinder 601 of pusher 6 is pushed into a bearing ring 22 at every turn and detects in external mold 7, and the bearing ring of completing detection that will detect on external mold 7 heads into discharging raceway 10, detect qualified bearing ring and send into next process by discharging raceway 10, detect underproof bearing ring through discharging raceway 10 time, control system is controlled the rejecting cylinder 801 of rejecting mechanism 8 and is opened the rejecting mouth, underproof bearing ring falls to the collecting box 11 of below from rejecting mouth, after a bearing ring to be detected 22 enters and detects external mold 7, control system is controlled 9 action (original state of testing agency 9 such as the Fig. 5 of testing agency, during original state, roller 915 relies on the spring force of back-moving spring 908 to be against on the conical shaft shoulder 9121 of distance rod 912), the piston rod of propulsion cylinder 905 stretches out, promote advance seat 911 by distance rod 912 by propelling spring 913, drive line slideways 904 slide (arrow E in Fig. 5) to the right by advance seat 911, the pedestal 903 that line slideway 904 drives on it, testing stand 906, inductive rod 910, connecting rod 909 and detection internal mold 12 slide to the right simultaneously, enter bearing ring to be detected 22 until detect internal mold 12, line slideway 904 is finished the work stroke and is stopped sliding, state such as Fig. 6 of this moment, shown in Fig. 6 A, the piston rod of propulsion cylinder 905 continues to stretch out, driving distance rod 912 compression propelling springs 913 continues to move right, at this moment, because line slideway 904 stops sliding, pedestal 903, testing stand 906, inductive rod 910, connecting rod 909 and detection internal mold 12 all stop sliding, along with the continuation of distance rod 912 is moved, diminishing gradually of the conical shaft shoulder 9121 that roller 915 props up, under the effect of back-moving spring 908 spring forces, drive testing stand 906 and rotate (arrow F in as Fig. 4) around bearing pin 907, drive detecting simultaneously internal mold 12, to press to the upper end of the interior bore edges of bearing ring 22 and inductive rod 910 close to inductive probe 901, be complementary with qualified bearing ring 22 endoporus and cylindrical respectively owing to detecting internal mold 12 and detecting external mold 7, when endoporus and the cylindrical of bearing ring to be detected 22 has a certain operation undressed, for example undressed fillet or raceway, bearing ring 22 to be detected can't accurately be pressed on and detects internal mold 12 and detect between external mold 7, and make inductive rod 910 upper ends can't be near inductive probe 901, that is to say, inductive probe 901 is surveyed less than inductive rod 910, control system judges that this bearing ring to be detected 22 is defective work, the processing of completing all process steps when endoporus and the cylindrical of bearing ring to be detected 22, bearing ring 22 to be detected is pressed on and detects internal mold 12 and detect between external mold 7 (as shown in Fig. 7, Fig. 7 A), make the inductive rod 910 reliable near-induction probes 901 in upper end, that is to say, inductive probe 901 may detect inductive rod 910, and control system judges that this bearing ring to be detected 22 is certified products.After detection was completed, the piston rod of the propulsion cylinder 905 of testing agency 9 retraction drove each parts and is returned to initial position, can enter the next circulation that detects.

Claims (9)

1. bearing ring leak working procedure detection machine is characterized in that comprising:

Frame, end face is equipped with working plate, and a side is equipped with side plate;

Control system is arranged on frame;

The swivel feeding dish is arranged on the working plate of frame;

Feeding track connects described swivel feeding dish;

The charging raceway tilts to be arranged on outside described side plate;

Stock chest is vertically mounted on outside described side plate, the described charging raceway of stock chest upper end connection;

Pusher is arranged on the side plate of described frame, comprises the pusher cylinder, and pushing head is arranged on the piston rod of pusher cylinder;

Detect external mold, be arranged on the side plate of described frame, the upper end of detecting external mold is provided with arc groove or V-type groove, detects the both sides that external mold and described pusher are arranged on described stock chest;

testing agency, be arranged on the inboard of described side plate, described testing agency comprises the inductive probe that is arranged on described working plate, support is arranged on the inboard of described side plate, line slideway and propulsion cylinder are rack-mount, pedestal is arranged on line slideway, testing stand is hinged by the first bearing pin and pedestal, testing stand consists of inverse-T-shaped by base and riser, support between the riser of testing stand and pedestal back-moving spring is housed, detect the front end that internal mold is arranged on the base of testing stand, inductive rod connects the riser of testing stand, and inductive rod extends to the position of described inductive probe, advance seat is arranged on line slideway, distance rod is arranged on the piston rod of propulsion cylinder, the middle part of distance rod is provided with the conical shaft shoulder, the front portion of distance rod is provided with guide section, the guide section of distance rod slides in advance seat, propelling spring is sleeved on the guide section of distance rod and supports and is contained between the shaft shoulder and advance seat of distance rod, and resetting block is connected to the front end of distance rod, the riser of described testing stand is provided with roller, and roller relies on the spring force of back-moving spring to be against on distance rod,

Detect internal mold, connect described testing agency;

The discharging raceway tilts to be arranged on the side plate of described frame, connects described detection external mold;

Rejecting mechanism is arranged on the below of described discharging raceway, comprises the rejecting cylinder, and cover plate is arranged on the piston rod of rejecting cylinder, and cover plate covers on the rejecting mouth of discharging raceway.

2. according to bearing ring leak working procedure detection machine claimed in claim 1, it is characterized in that: be set with connecting rod in described testing stand, connecting rod is fixed in testing stand by holding screw, detects the front end that internal mold is fixedly connected on described connecting rod.

3. according to bearing ring leak working procedure detection machine claimed in claim 2, it is characterized in that: the cross section of described connecting rod is rectangle.

4. according to bearing ring leak working procedure detection machine claimed in claim 2, it is characterized in that: the riser of described testing stand is provided with slotted hole, and the second bearing pin is fixedly mounted in described slotted hole by nut, and roller is arranged on bearing pin.

5. according to bearing ring leak working procedure detection machine claimed in claim 1, it is characterized in that: described line slideway is provided with stroke adjustmenting screw.

6. according to bearing ring leak working procedure detection machine claimed in claim 1, it is characterized in that: be provided with discharge baffle above the side of described detection external mold, discharge baffle is instead " √ " shape, discharge baffle rotatably is arranged on the side plate of described frame by bearing pin, the front end of discharge baffle extends to the side top of described detection external mold, the rear end of discharge baffle connects extension spring, and the top of discharge baffle is provided with the adjusting block.

7. according to bearing ring leak working procedure detection machine claimed in claim 1, it is characterized in that: described detection external mold is arranged on the side plate of described frame by slotted hole.

8. according to bearing ring leak working procedure detection machine claimed in claim 1, it is characterized in that: the angle of inclination of described charging raceway is between 10 ° ~ 30 °.

9. according to bearing ring leak working procedure detection machine claimed in claim 1, it is characterized in that: the angle of inclination of described discharging raceway is between 5 ° ~ 20 °.

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