CN107385158A - It is a kind of can anti-overfeeding annealing furnace feeding device - Google Patents

Abstract

The invention discloses it is a kind of can anti-overfeeding annealing furnace feeding device, belong to the working process technical field of metallic element.It includes base, storage tank, bearing stage, material-pulling device and feed device, the bearing stage runs through the mounting hole of the bearing stage provided with through-thickness close to one end of annealing furnace and protrudes from the striker plate on the bearing stage surface, it is mobilizable in the mounting hole to be provided with drawing mechanism, the drawing mechanism includes angled slide block and at least one discharging cylinder being connected with the angled slide block, the supporting surface of the angled slide block is an inclined-plane, when the discharging cylinder releases the angled slide block outside the mounting hole upwards, the round forging is slid out outside bearing stage along the inclined-plane.The present invention is controlled the angled slide block of liftout by setting by cylinder, and single forging is pushed out to outside bearing stage using inclined-plane, is pushed multiple forging on bearing stage successively, can effectively be avoided unnecessary forging from being released simultaneously, is reduced the unnecessary stove that moves back and is operated.

Description

It is a kind of can anti-overfeeding annealing furnace feeding device

Technical field

The invention belongs to the working process technical field of metallic element, more specifically to one kind can anti-excess enter The annealing furnace feeding device of material.

Background technology

It is well known that annealing is the common technology in machining, make by casting, forging rolling, welding or machining Material or workpiece keep a period of time after heating, improve plasticity and toughness with softening, then slow cooling makes chemical composition Homogenization, remove residual stress or obtain expected physical property；And annealing furnace is that indispensable processing is set in annealing processing Standby, the forging of excess is easily sent into stove by the feeding device of existing annealing furnace in feeding, it is impossible to which single forging is entered Row push control.

The content of the invention

For the above-mentioned problems in the prior art, the present invention provide it is a kind of can anti-overfeeding annealing furnace feeding dress Put, its by bearing stage set can it is single send out forging drawing mechanism, can effectively avoid because operational error will be unnecessary Forging be all sent into burner hearth, reduce unnecessary trouble and loss.

In order to solve the above problems, the technical solution adopted in the present invention is as follows：

It is a kind of can anti-overfeeding annealing furnace feeding device, including base, the storage tank in the base, be located at It is used to place the bearing stage of round forging, the material-pulling device on the bearing stage and in the storage tank on the base Feed device, the bearing stage close to one end of annealing furnace be provided with through-thickness through the bearing stage mounting hole and Protrude from the striker plate on the bearing stage surface, it is mobilizable in the mounting hole to be provided with drawing mechanism, the drawing mechanism bag Angled slide block and at least one discharging cylinder being connected with the angled slide block are included, the supporting surface of the angled slide block is an inclined-plane, works as institute When stating discharging cylinder and releasing the angled slide block outside the mounting hole upwards, the round forging slides out along the inclined-plane to be born Outside platform.

Further, the mounting hole is rectangular opening.

Further, the section of angled slide block structure in a rectangular trapezoid, the length and width of the angled slide block are respectively less than The length and width of the mounting hole.

Further, the discharging cylinder is provided with two, and both are respectively arranged on the both ends of the angled slide block bottom.

Further, the material-pulling device is fixed on the cylinder of the bearing stage and located at the cylinder including horizontal cross The push pedal of output end, the push pedal are rectangle structure.

Further, the feed device includes forging positioning table X to motion, located at the X to motion And lifting body, the support base for being used to place the round forging that the forging positioning table includes being arranged in pairs；The jack Structure is used to the round forging ejecting the support base.

Further, each support base includes the bottom plate limit that is fixed on the bottom plate on parallel with several left and right Position block, the limit space for accommodating the round forging is limited between the adjacent limited block.

Compared to prior art, beneficial effects of the present invention are：

The angled slide block of liftout is controlled by cylinder by setting, single forging is pushed out to outside bearing stage using inclined-plane, according to Multiple forging on secondary push bearing stage, in order not disorderly, carry out successively, can effectively avoid unnecessary forging from being released simultaneously, reduce Unnecessary moves back stove operation, further reduces worker's amount of labour, practical；

By the stopper slot for being provided for accommodating returning face plate on the limited block of support base so that limited block is total to returning face plate Forging is held round with branch, limited block therein is used to stop that round forging rolls in left and right directions, and returning face plate is used for branch and holds round forging, Circle forging can be jacked out to support base when returning face plate moves and slid to annealing furnace, without artificial feeding, had preferable Automation reaction.

Brief description of the drawings

Fig. 1 be the present invention it is a kind of can anti-overfeeding annealing furnace feeding device structural representation；

Fig. 2 be the present invention it is a kind of can anti-overfeeding annealing furnace feeding device material-pulling device structural representation；

Fig. 3 be the present invention it is a kind of can anti-overfeeding annealing furnace feeding device drawing mechanism structural representation；

Fig. 4 be the present invention it is a kind of can anti-overfeeding annealing furnace feeding device feed device structural representation；

Fig. 5 be the present invention it is a kind of can anti-overfeeding annealing furnace feeding device lifting body structural representation；

Fig. 6 be the present invention it is a kind of can anti-overfeeding annealing furnace feeding device support base structural representation.

Reference：1st, base；101st, bearing stage；2nd, circle forging；3rd, material-pulling device；4th, annealing furnace；5th, slide rail；6th, silk Bar；7th, slide unit；8th, support base；9th, the first returning face plate；9 ', second returning face plate；10th, cross bar；11st, drive cylinder；301st, cylinder； 302nd, push pedal；303rd, discharging cylinder；304th, striker plate；305th, angled slide block；801st, bottom plate；802nd, limited block；803rd, stopper slot.

Embodiment

The present invention is further described below with reference to specific embodiment.

As shown in Figures 1 to 6, it is a kind of can anti-overfeeding annealing furnace feeding device, including the base 1 of cuboid-type, Storage tank in base 1 and it is used for the bearing stage 101 for placing round forging 2 on base 1, includes being located on base 1 Material-pulling device 3 and the feed device in storage tank, material-pulling device 3 be located at the top of feed device, material-pulling device 3 is with sending Difference in height between material device may be configured as 3-6cm；Bearing stage 101 passes through close to one end of annealing furnace 4 provided with through-thickness Wear the mounting hole 102 of bearing stage 101 and protrude from the striker plate 304 on bearing stage surface, it is mobilizable in mounting hole 102 to be provided with out Expect device, drawing mechanism includes angled slide block 305 and at least one discharging cylinder 303 being connected with angled slide block 305, angled slide block 305 Supporting surface be an inclined-plane, when discharging cylinder 303 angled slide block 305 released upwards mounting hole 102 it is outer when, circle forging 2 is along oblique Face is slid out outside bearing stage 101；Feed device is determined including X to (horizontal cross) motion, located at X to the forging of motion Position platform and lifting body, the support base 8 for being used to place round forging that forging positioning table includes being arranged in pairs；Lifting body includes the One end of one returning face plate 9, the second returning face plate 9 ' and drive cylinder 11, the first returning face plate 9 and the second returning face plate 9 ' can with support base 8 The other end of rotation connection, the first returning face plate 9 and the second returning face plate 9 ' is connected with each other by cross bar 10, the output of drive cylinder 11 End connection cross bar 10 so that the first returning face plate 9 and the second returning face plate 9 ' the obliquity of horizontal level and jacking circle forging 2 it Between it is rotatable；First returning face plate 9 and the second returning face plate 9 ' are accommodated in support base 8 in horizontal level and are total to support base 8 Forging 2 is held round with branch；After material-pulling device 3 pushes to the circle forging 2 on bearing stage 101 on support base 8, X is put down to motion The fire door close to annealing furnace is moved to, the output end of rear drive cylinder 11 is stretched out so that the first returning face plate 9 and the second returning face plate upwards 9 ' are tilted, and circle forging 2 is slid into fire door along the first returning face plate 9 and the second returning face plate 9 ' under gravity.

Specifically, the front end of base 1 is docked with annealing furnace 4, bearing stage 101 is located at the rear end of base 1, as shown in Fig. 2 pushing away Material device 3 is fixed on the cylinder 301 of bearing stage 101 and the push pedal 302 located at the output end of cylinder 301, push pedal including horizontal cross 302 be rectangle structure, and the length of push pedal 302 is less than the length of circle forging 2, the bottom of the push pedal 302 not platform with bearing stage 101 Face contacts, and push pedal 302 can be other random geometries.It may be dropped to prevent from justifying forging 2, the both ends of bearing stage 101 are provided with Baffle plate.

As shown in figure 3, mounting hole 102 is rectangular opening, the section structure in a rectangular trapezoid of angled slide block 305, angled slide block 305 Length and width is respectively less than the length and width of mounting hole 102, so, angled slide block 305 in mounting hole 102 can freely activity and Do not limited.Discharging cylinder 303 is provided with two, and both are respectively arranged on the both ends of the bottom of angled slide block 305, the cylinder body of discharging cylinder 303 Part is fixed on the bottom wall of storage tank；Optionally, striker plate 304 is rectangular configuration, when angled slide block 305 inclined-plane minimum point with During the top surface flush of striker plate 304, circle forging 2 can be slid to support base 8.

As shown in figure 4, the X in feed device includes slide rail 5, sliding block 702, slide unit 7, servomotor, silk to motion Bar 6 and feed screw nut 701, two slide rails 5 are fixed on the bottom surface of storage tank in pairs, the quantity and installation site of sliding block 702 with Slide rail 5 matches, and sliding block 702 and feed screw nut are both secured to the bottom of slide unit 7, form screw mandrel feed mechanism.

As shown in Figure 5, Figure 6, the support base 8 being arranged in pairs is fixed on the both ends at the top of slide unit 7 by several columns, often Bottom plate 801 of the individual support base 8 including the cuboid-type limited block 802 that is fixed on bottom plate 801 on parallel with several left and right, phase The limit space for accommodating round forging 2 is limited between adjacent limited block 802, limited block 802 is provided with to be turned over for accommodating first The stopper slot 803 of the returning face plate 9 ' of flap 9 or second, the spacing between two support bases 8 is suitable, can facilitate the first returning face plate 9 Installation and flip-flop movement with the second returning face plate 9 '.Limited block 802 on bottom plate 801 is provided with six, and six along bottom plate 801 Length direction interval is unanimously arranged to form five limit spaces, and optionally, limited block 802 is rectangular thin plate structure, beneficial to adding Work.Stopper slot 803 is rectangular channel, and the first returning face plate 9 and the second returning face plate 9 ' are rectangle tabular structure, the first returning face plate 9 It is slightly less than the width of stopper slot 803 with the width of the second returning face plate 9 ', the top end face of the first returning face plate 9 and the second returning face plate 9 ' exists Do not protruded from outside stopper slot 803 during horizontal level；It is understood that the stopper slot 803 on six limited blocks 802 is in level side Corresponded to completely mutual.Cross bar 10 is round bar, and its middle part is provided with the location division 10 ' being engaged with drive cylinder 11, drive cylinder 11 vertically to setting so that its output end connects up location division 10 '.The end of bottom plate 801 is provided with hinged seat, the first returning face plate 9 It is rotatablely connected with the end of the second returning face plate 9 ' on hinged seat.

In use, the circle forging 2 forged after processing is sequentially placed on bearing stage 101 by worker first with handling device, Cylinder 301, discharging cylinder 303 and drive cylinder 11 now is in contraction state, and angled slide block 305 houses into mounting hole completely Circle forging 2 is caused to cross angled slide block 305 and be offseted with striker plate 304 in 102, slide unit 7 moves to be docked with bearing stage 101, I.e. support base 8 is in the underface of bearing stage 101, it should be noted that only expose front end first of bearing stage 101 is spacing Space is in outside bearing stage 101；Cylinder 301 is opened afterwards, cylinder 301 drives push pedal 302 to travel forward to promote circle forging 2, until One round forging 2 starts to offset with striker plate 304, and discharging cylinder 303 starts to lift angled slide block 305, and angled slide block 305 will circle Forging 2 is released bearing stage 101 and entered in first limit space, and rear discharging cylinder 303 is shunk, and cylinder 301 continues to promote, and Also until bearing stage 101 exposes second limit space in outside bearing stage 101, discharging cylinder 303 repeats dynamic slide unit 7 for sliding forward Make to cause second round forging 2 second limit space of entrance, by that analogy fill 5 limit spaces；Servomotor drives afterwards Dynamic slide unit 7 is slid onto near the fire door of annealing furnace 4, opens fire door, and starts drive cylinder 11 to jack the first returning face plate 9 and the Two returning face plates 9 ' cause the rear end of the first returning face plate 9 and the second returning face plate 9 ' to move upwards, and now the first returning face plate 9 and second turns over Flap 9 ' can jack up round forging 2 upwards and cause circle forging 2 to depart from limit space, and final under gravity along the first upset The returning face plate 9 ' of plate 9 and second is rolled into annealing furnace, finally closes fire door, and all moving components return to original state, wait and transporting Next batch.

Schematically the present invention and embodiments thereof are described above, this describes no restricted, institute in accompanying drawing What is shown is also one of embodiments of the present invention, and actual structure is not limited thereto.So if common skill of this area Art personnel are enlightened by it, without departing from the spirit of the invention, without designing and the technical scheme for creativeness Similar frame mode and embodiment, protection scope of the present invention all should be belonged to.

Claims (7)

1. it is a kind of can anti-overfeeding annealing furnace feeding device, including base, the storage tank in the base, located at institute State and be used for the bearing stage for placing round forging, the material-pulling device on the bearing stage on base and in the storage tank Feed device, it is characterised in that：The bearing stage runs through the bearing stage close to one end of annealing furnace provided with through-thickness Mounting hole and protrude from the striker plate on the bearing stage surface, it is mobilizable in the mounting hole to be provided with drawing mechanism, it is described Drawing mechanism includes angled slide block and at least one discharging cylinder being connected with the angled slide block, and the supporting surface of the angled slide block is one Inclined-plane, when the discharging cylinder releases the angled slide block outside the mounting hole upwards, the round forging is along the inclined-plane Slide out outside bearing stage.

2. it is according to claim 1 it is a kind of can anti-overfeeding annealing furnace feeding device, it is characterised in that：The installation Hole is rectangular opening.

3. it is according to claim 1 it is a kind of can anti-overfeeding annealing furnace feeding device, it is characterised in that：The ejection The section structure in a rectangular trapezoid of block, the length and width of the angled slide block are respectively less than the length and width of the mounting hole.

4. it is according to claim 1 it is a kind of can anti-overfeeding annealing furnace feeding device, it is characterised in that：The discharging Cylinder is provided with two, and both are respectively arranged on the both ends of the angled slide block bottom.

5. it is according to claim 1 it is a kind of can anti-overfeeding annealing furnace feeding device, it is characterised in that：The pusher Device is fixed on the cylinder of the bearing stage and the push pedal located at the cylinder output end including horizontal cross, and the push pedal is length Square structure.

6. it is according to claim 1 it is a kind of can anti-overfeeding annealing furnace feeding device, it is characterised in that：The feeding Device includes the forging positioning table and lifting body X to motion, located at the X to motion, the forging positioning table Including the support base for being used to place the round forging being arranged in pairs；The lifting body is used for described in the round forging ejection Support base.

7. it is according to claim 6 it is a kind of can anti-overfeeding annealing furnace feeding device, it is characterised in that：It is each described Support base includes the bottom plate limited block that is fixed on the bottom plate on parallel with several left and right, is limited between the adjacent limited block Make the limit space for accommodating the round forging.