CN206706152U - A kind of diaphragm spring high frequency automatic air quenching press - Google Patents

Abstract

It the utility model is related to quenching apparatus field, specifically a kind of diaphragm spring high frequency automatic air quenching press, material storage mechanism is respectively equipped with frame, feed mechanism, quenching mechanism and discharging mechanism, the material storage mechanism has storing arm, storing arm bottom driving is connected with reducing motor, the feed mechanism has lifting device and feeding device for suction material, the quenching mechanism has retainer arm, retainer arm bottom driving is connected with servomotor, high-frequency induction device and blowing cooling device are disposed with above retainer arm, the discharging mechanism has discharging device for suction material and the splicing car matched with discharging device for suction material, returning apparatus has PLC ECUs in frame, PLC ECUs respectively with material storage mechanism, feed mechanism, quenching mechanism and discharging mechanism communication connection；The utility model automaticity height, the production efficiency for greatly improving quenching technical, pollution on the environment is minimum, stable and reliable for performance, maintenance cost is low, has a good application prospect.

Description

A kind of diaphragm spring high frequency automatic air quenching press

Technical field

Quenching apparatus field is the utility model is related to, specifically a kind of diaphragm spring high frequency automatic air quenching press.

Background technology

Automobile Clutch Plate Spring is the major part of clutch, to improve the mill of diaphragm spring increment and release bearing Damage intensity and the service life of clutch, it is desirable to which diaphragm increment need to do high-frequency quenching processing.If high-frequency quenching handles bad, film Piece increment easily produces small crackle, can make clutch diaphragm increment easily abrasion or fracture in use, cause vapour Car can not normally travel or separation it is not thorough, make automobile gear shift difficult, after also causing clutch fracture, blast etc. serious sometimes Fruit.To improve the quality of diaphragm high-frequency quenching processing, the processing of diaphragm high-frequency quenching is a very important production technology.

In existing diaphragm spring quenching technical, current most of manufacturing firms are still using traditional handwork side Formula is produced, and manual work mode is uncontrollable consistent to heat time, temperature and quenching liquid cool time, to diaphragm Quenching quality has a significant impact；In addition, in traditional quenching mode, it can also use and arrive quenching liquid, after the completion of quenching technical also Substantial amounts of waste water can be produced, if dealt with improperly, certain pollution is will also result in environment.

The content of the invention

To solve problem present in existing diaphragm spring quenching technical, the utility model provides a kind of automaticity High, the quenching diaphragm spring high frequency automatic air quenching press that quality is outstanding, production cost is relatively low.

Concrete scheme of the present utility model is：A kind of diaphragm spring high frequency automatic air quenching press, has frame, in frame Material storage mechanism, feed mechanism, quenching mechanism and discharging mechanism are inside respectively equipped with, the material storage mechanism, which has, to be used to deposit diaphragm bullet The storing arm of spring, storing arm bottom driving are connected with reducing motor, and the feed mechanism, which has, lifts supporting plate upper diaphragm spring Lifting device and the feeding device for suction material above the lifting device, the quenching mechanism have be used for prop up temporarily The retainer arm of diaphragm spring, retainer arm bottom driving are connected with servomotor, high-frequency induction are respectively disposed with above retainer arm Device and blowing cooling device, the discharging mechanism have discharging device for suction material and the splicing car matched with discharging device for suction material； The retainer arm at least four retainer support arms, feeding device for suction material, high frequency are corresponding in turn to above four retainer support arms Induction installation, blowing cooling device and discharging device for suction material；Returning apparatus has PLC ECUs, PLC ECUs in the frame Communicate and connect with the material storage mechanism, feed mechanism, quenching mechanism and discharging mechanism respectively.

At least provided with two for positioning and fixing diaphragm bullet on storing arm in material storage mechanism described in the utility model The guide rod of spring, connected using shaft gear between reducing motor and the storing arm, also pacified respectively in the bottom of storing arm Deceleration sensor and alignment sensor equipped with control reducing motor operation.

Lifting device in feed mechanism described in the utility model has a fixed support, fixed support built with screw mandrel, The retainer support that diaphragm spring can be held up is equipped with the body of rod of screw mandrel towards the side of storing arm, the bottom driving of screw mandrel connects Rotary electric machine is connected to, the position that screw mandrel upper and lower part is located in fixed support is also separately installed with control retainer support stroke Upper limit level sensor and lower limit level sensor, it is also equipped with the retainer support being used for detecting whether prop up film on retainer support Flat spring without material identification device.

It is described in the utility model to include without material identification device installed in retainer bracket edge position without material identification elasticity Mechanism, no material identification elastic mechanism include sensor block and the compression spring below sensor block, and elastic mechanism is being identified without material Lower section be provided with without material identification sensor.

Feeding device for suction material in feed mechanism described in the utility model has magnechuck A, is filled above magnechuck A There is the suction cylinder A of vertical lift, suction cylinder A cylinder body level is slidably mounted in frame, the one of suction cylinder A cylinder bodies Side is also associated with can be by the horizontal pushing tows of suction cylinder A to the active cylinder A rotated above material-supporting device;The magnechuck A with Spring bumper A is connected between suction cylinder A, wherein being also equipped with being used to control electromagnetism to inhale at the top of magnechuck A The feeding identification sensor A of disk A break-make electricity conditions, it is also equipped with being used to control suction cylinder A at the top of spring bumper A The suction control sensor of start and stop state.

The tail end of each retainer support arm of retainer arm described in the utility model is vertically installed with rotating shaft, the top of rotating shaft Portion is horizontally installed with the chuck for clamping diaphragm spring, and the bottom of rotating shaft is provided with driven gear；It is located at high frequency sense in frame Answer the side of device also has chuck driving device with driven gear Matching installation, and the chuck driving device has motor, Motor passes sequentially through driving gear and buffer gear cold is connected with driven gear, and buffer spring is also equipped with buffer gear cold.

High-frequency induction device described in the utility model has the high-frequency induction ring above chuck, and high-frequency induction ring exists Shell outside is connected with radio-frequency induction coil, is moved up and down above the radio-frequency induction coil equipped with drive radio-frequency induction coil Lift cylinder, radio-frequency induction coil lower section are connected with High-frequency machine by wire；The cooling device that blows afloat has bending-type air guide Pipe, one end of bending-type airway tube are provided with the inflatable mouth above face chuck, and the other end of bending-type airway tube is communicated with pneumatics Machine.

Discharging device for suction material in discharging mechanism described in the utility model has magnechuck B, is filled above magnechuck B There is the suction cylinder B of vertical lift, suction cylinder B cylinder body level is slidably mounted in frame, the one of suction cylinder B cylinder bodies Side is also associated with can be by the active cylinder B above the horizontal pushing tows of suction cylinder B to splicing car;The magnechuck B and suction gas Spring bumper B is connected between cylinder B, wherein being also equipped with being used to control magnechuck B break-makes at the top of magnechuck B The feeding identification sensor B of electricity condition.

Control cabinet is installed, the PLC ECUs are located inside control cabinet, controlled in frame described in the utility model At least be additionally provided with case processed touch screen operation panel, power switch, starting switch, emergency stop button switch, fault reset switch, Pause button switch, feeding force of suction cup size potentiometer switch, discharging force of suction cup size potentiometer switch.

The advantage that the utility model possesses is：

1st, manual work mode is replaced comprehensively, realizes the full-automation of the techniques such as blowing, heating, quenching, feeding, use simultaneously Multistation connection line operation mode, substantially increase production efficiency and saved human cost；

2nd, diaphragm spring is cooled down using compressed air, allows the waste heat of diaphragm to carry out nature tempering.Eliminate tradition Electric furnace tempering process and quenching liquid Cooling Quenching technique, saved substantial amounts of electric energy and zero waste water（Quenching liquid, cleaning fluid）Row Put；

3rd, automaticity is high, greatly improves the production efficiency of quenching technical, reduces needed for manual handling thereof Cost of labor, while the utility model is ingenious in design, stable and reliable for performance, simple operation, and maintenance cost is relatively low, has good Application prospect.

Brief description of the drawings

Fig. 1 and Fig. 2 is the utility model front view；

Fig. 3 is the utility model side view；

Fig. 4 is the utility model top view；

Fig. 5 is enlarged drawing when identifying elastic mechanism without material state without material；

Fig. 6 is enlarged drawing when having material state without material identification elastic mechanism；

Fig. 7 be feeding device for suction material without material state when enlarged drawing；

Fig. 8 is enlarged drawing when feeding device for suction material has material state；

Fig. 9 is the enlarged drawing of chuck and its accessory structure in retainer arm；

Figure 10 is the enlarged drawing of chuck driving device.

In figure：1- frames, 2- material storage mechanisms, 3- feed mechanisms, 4- quenching mechanisms, 5- discharging mechanisms, 6- diaphragm springs, 7- Storing arm, 8- storing support arms, 9- guide rods, 10- center driving axles, 11- reducing motors, 12- deceleration sensors, 13- positioning pass Sensor, 14- lifting devices, 15- feeding device for suction material, 16- fixed supports, 17- screw mandrels, 18- retainer supports, 19- rotary electric machines, 20- upper limit level sensors, 21- lower limit level sensors, 22- identify elastic mechanism, 23- sensor blocks, 24- compression springs, 25- without material Without material identification sensor, 26- magnechucks, 27- suction cylinders, 28- crossbeams, 29- horizontal slides, 30- spring bumpers, 31- feeding identification sensors, 32- suctions control sensor, 33- active cylinders, the upper sensors of 34-, 35- lower sensors, before 36- Sensor, sensor after 37-, 38- retainer arms, 39- retainer support arms, 40- high-frequency induction devices, 41- one-level cooling devices, 42- Two level cooling device, 43- discharging device for suction material, 44- central rotating shafts, 45- servomotors, 46- back to zero zero point identification sensors, 47- anchor point identification sensors, 48- rotating shafts, 49- chucks, 50- workpiece locating pieces, 51- driven gears, 52- chuck drives dress Put, 53- motors, 54- driving gears, 55- high-frequency induction rings, 56- radio-frequency induction coils, 57- lift cylinders, 58- wires, 59- High-frequency machines, 60- bending-type airway tubes, 61- inflatable mouths, 62- splicing cars, 63- photoelectric sensors, 64- control cabinets, 65- bufferings Spring.

Embodiment

In the present embodiment, a kind of diaphragm spring high frequency automatic air quenching press, there is frame 1, be respectively equipped with frame 1 Material storage mechanism 2, feed mechanism 3, quenching mechanism 4 and discharging mechanism 5, the material storage mechanism 2, which has, to be used to deposit diaphragm spring 6 Storing arm 7, storing arm 7 are formed by two in 180 ° of storing support arms 8 being arranged symmetrically, and one is equipped with each storing support arm 8 Root guide rod 9, diaphragm spring 6 are positioned and are fixed on storing support arm 8 by guide rod 9, in being additionally provided with the bottom of storing arm 7 Heart power transmission shaft 10, center driving axle 10 are connected with reducing motor 11 by gear drive, in addition, at the both ends of the bottom of storing arm 7 Deceleration sensor 12 and alignment sensor 13 that control reducing motor 11 is run also are separately installed with, wherein deceleration sensor 12 is When being reloaded for controlling storing arm 7 to rotate, carry out deceleration positioning close to the alignment sensor 13 of storing arm 7 soon and stop operating.

In the present embodiment, feed mechanism 3 has lifting device 14 and a feeding device for suction material 15, wherein lifting device 14 be by Diaphragm spring 6 on storing arm 7 is lifted to the lower section of feeding device for suction material 15, and feeding device for suction material 15 is then by lifting device 14 Diaphragm spring 6 be transferred in quenching mechanism 4.

In the present embodiment, lifting device 14 has fixed support 16, and fixed support 16 is built with screw mandrel 17, the bar of screw mandrel 17 The retainer support 18 that diaphragm spring 6 can be held up, the bottom driving connection of screw mandrel 17 are equipped with body towards the side of storing arm 7 There is rotary electric machine 19, the position that the upper and lower part of screw mandrel 17 is located in fixed support 16 is also separately installed with control retainer support 18 The upper limit level sensor 20 and lower limit level sensor 21 of stroke, it is also equipped with the retainer support 18 being used to detect retainer support Diaphragm spring 6 whether is propped up on 18 identifies elastic mechanism 22 without material, and no material identification elastic mechanism 22 includes sensor block 23 and position Compression spring 24 in the lower section of sensor block 23, it is provided with the lower section without material identification elastic mechanism 22 without material identification sensor 25.

In the present embodiment, feeding device for suction material 15 has magnechuck 26, and the top of magnechuck 26 is equipped with vertical lift Suction cylinder 27, frame 1 have a crossbeam 28 at the position of the cylinder body of suction cylinder 27, a horizontal slide 29 are housed on crossbeam 28, The back of suction cylinder 27 has the chute to match with the horizontal slide 29, and suction cylinder 27 is slidably mounted on horizontal slide 29 On, spring bumper 30 is connected between magnechuck 26 and suction cylinder 27, is also equipped with the top of magnechuck 26 For controlling the feeding identification sensor 31 of the break-make electricity condition of magnechuck 26, it is also equipped with the top of spring bumper 30 For controlling the suction of the start and stop state of suction cylinder 27 to control sensor 32；It is also equipped with leading in the side of the cylinder body of suction cylinder 27 Take offence cylinder 33, active cylinder 33 is used for 27 horizontal pushing tow of suction cylinder to the top of quenching mechanism 4.

In the present embodiment, sensor 34 and lower sensor 35 are also respectively provided with the cylinder body of suction cylinder 27, in active gas Front sensor 36 and rear sensor 37 are also respectively provided with the cylinder body of cylinder 33, wherein, upper sensor 34, which is used to sense, works as magnechuck The retraction signal of the piston rod of suction cylinder 27 during 26 suction, and control active cylinder 33 to promote suction cylinder 27 along horizontal slide 29 carry out feeding；Lower sensor 35 is used for after the completion of active cylinder 33 pushes suction cylinder 27, and control magnechuck 26 is disconnected Electricity comes off diaphragm spring 6；Front sensor 36 is used for after the completion of active cylinder 33 pushes suction cylinder 27, controls suction gas The piston rod of cylinder 27, which stretches out, promotes magnechuck 26 descending；Sensor 37 is used for when diaphragm spring 6 comes off from magnechuck 26 afterwards Afterwards, the piston rod of active cylinder 33, which is retracted, drives suction cylinder 27 to move back, and the piston rod of control suction cylinder 27, which stretches out, drives electromagnetism to be inhaled 26 descending suction of disk.

In the present embodiment, quenching mechanism 4 has the retainer arm 38 for being used for propping up diaphragm spring 6 temporarily, and retainer arm 38 has The retainer support arm 39 of six arrangements that are centrosymmetric, the top of six retainer support arms 39 have been corresponding in turn to feeding along its rotation direction Device for suction material 15, high-frequency induction device 40, one-level cooling device 41, two level cooling device 42, discharging device for suction material 43, retainer arm 38 are provided with central rotating shaft 44, and central rotating shaft 44 is connected with servomotor 45 by belt transmission, and servomotor 45 drives retainer arm 38 rotate progress Six-position rotating.

In the present embodiment, the He of retainer arm back to zero zero point identification sensor 46 is additionally provided with the frame 1 below retainer arm 38 When anchor point identification sensor 47, wherein retainer arm back to zero zero point identification sensor 46 are used to control the startup of retainer arm 38, it will hold in the palm Material arm 38 returns to startup point manually（Zero point）, to ensure 39 each station of retainer support arm in predetermined position；Anchor point identification sensing Device 47 is used for six retainer support arms 39 for controlling retainer arm 38, the often positioning of one retainer support arm 39 of rotation and control diaphragm spring 6 high-frequency heating.

In the present embodiment, the tail end of each retainer support arm 39 is vertically installed with rotating shaft 48, the top horizontal of rotating shaft 48 Chuck 49 for clamping diaphragm spring 6 is installed, three adjustable workpiece locating pieces 50 are respectively mounted on each chuck 49, is used Positioned in various sizes of diaphragm spring 6, driven gear 51 is installed in the bottom of rotating shaft 48；In addition, in frame 1 Also there is chuck driving device 52 with the Matching installation of driven gear 51 in the side of high-frequency induction device 40, chuck driving device 52 is used Rotated in during high-frequency induction heating diaphragm spring 6, driving the chuck 49 on the retainer support arm 39（The side that chuck 49 rotates To opposite with the rotation direction of retainer arm 38）, heat the Rotating with Uniform of diaphragm spring 6；The chuck driving device 52 has driving Motor 53, motor 53 passes sequentially through driving gear 54 and buffer gear cold 55 is connected with driven gear 51, on buffer gear cold Be also equipped with buffer spring 65, for elastic buffer because retainer arm 38 rotate when, impact of the driven gear 51 to driving gear 54.

In the present embodiment, high-frequency induction device 40 has the high-frequency induction ring 55 positioned at the top of chuck 49, high-frequency induction ring 55 are connected with radio-frequency induction coil 56 in shell outside, and the top of radio-frequency induction coil 56 is equipped with drive radio-frequency induction coil 56 The lift cylinder 57 moved up and down, the lower section of radio-frequency induction coil 56 are connected with High-frequency machine 59 by wire 58；The one-level cooling Device 41 is identical with the structure of two level cooling device 42, is respectively provided with bending-type airway tube 60, and one end of bending-type airway tube 59 is provided with Inflatable mouth 61 above face chuck, the other end of bending-type airway tube 60 are communicated with air compressor machine.

In the present embodiment, the lower section of discharging device for suction material 43 is provided with splicing car 62, and the center of splicing car is provided with guide rod, connect The top of truck 62 is also equipped with photoelectric sensor 63, for detecting whether the inner membrance flat spring 6 of splicing car 62 is filled；The discharging Device for suction material 43 includes magnechuck 36, suction cylinder 27, active cylinder 33 and spring bumper 30, wherein magnechuck 36th, the attachment structure and upper sensor 34, lower sensor between suction cylinder 27, active cylinder 33 and spring bumper 30 35th, front sensor 36 and rear sensor 37 are consistent with feeding device for suction material 15, in addition, in discharging device for suction material 43 It is provided with magnechuck 36 without material identification sensor 25.

In the present embodiment, control cabinet 64 is installed in frame 1, the inside of control cabinet 64 is equipped with PLC ECUs, PLC electricity Control unit respectively with the upper limit in the deceleration sensor 12 and alignment sensor 13, lifting device 14 in the storing arm 7 of material storage mechanism 2 Level sensor 20 and lower limit level sensor 21 and without material identification sensor 25, the feeding identification sensor in feeding device for suction material 15 31 and suction control sensor 32, the upper sensor 34 in suction cylinder 27 and the forward pass in lower sensor 35, active cylinder 33 Sensor 36 and rear sensor 37, the back to zero zero point identification sensor 46 in the retainer arm 38 of quenching mechanism 4 and anchor point identification sensing Device 47 and discharging device for suction material 43 in upper sensor 34, lower sensor 35, front sensor 36, rear sensor 37 and without material know The communication connection of individual sensor 25；Touch screen operation panel, power switch, starting switch, jerk are additionally provided with control cabinet 64 Button switch, fault reset switch, pause button switch, feeding force of suction cup size potentiometer switch, discharging force of suction cup are big Small potentiometer switch.

Claims (9)

1. a kind of diaphragm spring high frequency automatic air quenching press, has frame, it is characterised in that：Storing is respectively equipped with frame Mechanism, feed mechanism, quenching mechanism and discharging mechanism, the material storage mechanism have the storing arm for being used for depositing diaphragm spring, storage Material arm bottom driving is connected with reducing motor, and the feed mechanism has the lifting device for lifting supporting plate upper diaphragm spring and position Feeding device for suction material above the lifting device, the quenching mechanism have the retainer for being used for propping up diaphragm spring temporarily Arm, retainer arm bottom driving are connected with servomotor, and high-frequency induction device is respectively disposed with above retainer arm and air blowing cools down Device, the discharging mechanism have discharging device for suction material and the splicing car matched with discharging device for suction material；The retainer arm is at least Have four retainer support arms, be corresponding in turn to above four retainer support arms feeding device for suction material, high-frequency induction device, blow it is cold But device and discharging device for suction material；Returning apparatus has a PLC ECUs in the frame, PLC ECUs respectively with the storing Mechanism, feed mechanism, quenching mechanism and discharging mechanism communication connection.

A kind of 2. diaphragm spring high frequency automatic air quenching press according to claim 1, it is characterised in that：The storage machine At least provided with two guide rods for being used to positioning and fixing diaphragm spring, the reducing motor and storing arm on storing arm in structure Between using shaft gear connect, the bottom of storing arm also be separately installed with control reducing motor operation deceleration sensor And alignment sensor.

A kind of 3. diaphragm spring high frequency automatic air quenching press according to claim 1, it is characterised in that：The feeder Lifting device in structure has a fixed support, and fixed support fills on the body of rod of screw mandrel towards the side of storing arm built with screw mandrel Equipped with the retainer support that can hold up diaphragm spring, the bottom driving of screw mandrel is connected with rotary electric machine, is located at silk in fixed support The position of bar upper and lower part is also separately installed with the upper limit level sensor and lower limit level sensor of control retainer support stroke, institute State be also equipped with retainer support for detect whether propped up on retainer support diaphragm spring without material identification device.

A kind of 4. diaphragm spring high frequency automatic air quenching press according to claim 3, it is characterised in that：It is described to know without material Other device includes identifying elastic mechanism without material installed in retainer bracket edge position, and no material identification elastic mechanism includes sensor block With the compression spring below sensor block, it is provided with the lower section without material identification elastic mechanism without material identification sensor.

A kind of 5. diaphragm spring high frequency automatic air quenching press according to claim 1, it is characterised in that：The feeder Feeding device for suction material in structure has magnechuck A, and the suction cylinder A of vertical lift, suction cylinder are housed above magnechuck A A cylinder body level is slidably mounted in frame, and being also associated with the side of suction cylinder A cylinder bodies can be by the horizontal top of suction cylinder A It is pushed into rotate the active cylinder A above material-supporting device;Spring buffer dress is connected between magnechuck A and suction the cylinder A A is put, wherein being also equipped with the feeding identification sensor for controlling magnechuck A break-make electricity conditions at the top of magnechuck A A, it is also equipped with the top of spring bumper A for controlling the suction of suction cylinder A start and stop states to control sensor.

A kind of 6. diaphragm spring high frequency automatic air quenching press according to claim 1, it is characterised in that：The retainer arm The tail end of each retainer support arm be vertically installed with rotating shaft, the top horizontal of rotating shaft is provided with for clamping diaphragm spring Chuck, the bottom of rotating shaft are provided with driven gear；The side for being located at high-frequency induction device in frame also matches peace with driven gear Equipped with chuck driving device, the chuck driving device has motor, and motor passes sequentially through driving gear and buffering Gear is connected with driven gear, and buffer spring is also equipped with buffer gear cold.

A kind of 7. diaphragm spring high frequency automatic air quenching press according to claim 1, it is characterised in that：The high frequency sense Answer device that there is the high-frequency induction ring above chuck, high-frequency induction ring is connected with radio-frequency induction coil in shell outside, institute State and pass through above radio-frequency induction coil equipped with the lift cylinder for driving radio-frequency induction coil to move up and down, radio-frequency induction coil lower section Wire is connected with High-frequency machine；The blowing cooling device has bending-type airway tube, and one end of bending-type airway tube is provided with face Inflatable mouth above chuck, the other end of bending-type airway tube are communicated with air compressor machine.

A kind of 8. diaphragm spring high frequency automatic air quenching press according to claim 1, it is characterised in that：The discharging machine Discharging device for suction material in structure has magnechuck B, and the suction cylinder B of vertical lift, suction cylinder are housed above magnechuck B B cylinder body level is slidably mounted in frame, and being also associated with the side of suction cylinder B cylinder bodies can be by the horizontal top of suction cylinder B The active cylinder B being pushed into above splicing car;Spring bumper B is connected between magnechuck B and suction the cylinder B, its In feeding identification sensor B for controlling magnechuck B break-make electricity conditions is also equipped with the top of magnechuck B.

A kind of 9. diaphragm spring high frequency automatic air quenching press according to claim 1, it is characterised in that：In the frame Control cabinet is installed, the PLC ECUs are located inside control cabinet, and touch screen operation face is at least additionally provided with control cabinet Plate, power switch, starting switch, emergency stop button switch, fault reset switch, pause button switch, feeding force of suction cup size Potentiometer switch, discharging force of suction cup size potentiometer switch.