CN206887155U - A kind of leverage part entirety frequency heating device - Google Patents

Abstract

The utility model provides a kind of leverage part entirety frequency heating device, including material stock frame, grading feed arrangement, bar assembly angle regulator, bar assembly feed device, heater；The bar assembly being stored on the material stock frame delivers to bar assembly angle regulator by grading feed arrangement and carries out angular adjustment, is then sent into by bar assembly feed device in heater.Compared with prior art, firing equipment provided by the utility model, automaticity are high.By control system it is unified regulate and control, complete to the self-feeding of bar assembly, automatically adjust the process of angle.

Description

A kind of leverage part entirety frequency heating device

Technical field

Induction heating equipment of medium frequency is the utility model is related to, specifically a kind of leverage part entirety frequency heating device.

Background technology

For hardware, in order to improve its performance, in process of production, there is one to extremely important and necessary work Sequence, it is exactly heating quenching.Induction heating equipment of medium frequency arises at the historic moment.However, firing equipment of the prior art, automaticity is not Height, especially feeding process cause operating efficiency low, taken time and effort, it is necessary to manually bar assembly is placed into inside heating machine.

In production, in order to facilitate the connection of automobile stabilizer bar and automotive suspension, the termination of stabiliser bar needs to be forged into necessarily Shape, such that the body of rod cross sectional shape of end part of stabilizer rod section and stabiliser bar has larger difference, using traditional Resistance heating method clamps end head timesharing, and because cross sectional shape is different, caused resistance is different, so as to cause heating uneven Even, end portion is easily blown.Even if using induction heating equipment of medium frequency, for the end of variable cross-section, it is also desirable to adjust its variable cross-section Angle, with ensure vortex the magnetic line of force through variable cross-section end plane projected area it is most suitable.And intermediate frequency of the prior art adds Hot equipment causes angle adjustment inaccurate, heating effect is poor, it is necessary to manually adjust angle.

Utility model content

The purpose of this utility model is to solve to be used in the prior art bar assembly heating feeder equipment automaticity The defects of low, there is provided a kind of leverage part entirety frequency heating device solves the above problems.

To achieve these goals, the technical solution of the utility model is as follows：

A kind of leverage part entirety frequency heating device, including material stock frame, grading feed arrangement, bar assembly angular adjustment dress Put, bar assembly feed device, heater；It is thin that the bar assembly being stored on the material stock frame by grading feed arrangement delivers to bar Part angle regulator carries out angular adjustment, is then sent into by bar assembly feed device in heater.

Preferably, the material stock frame includes two supporting surfaces, and bar assembly load is located on two supporting surface；Described supporting surface one end To be high-end, the other end is low side；The low side is towards grading feed arrangement；The lower end is provided with bar assembly block piece；Institute The upper surface for stating bar assembly block piece is bar assembly transfer face；The incline direction in the transfer face is consistent with supporting surface.

Preferably, the grading feed arrangement includes one-level feeding mechanism；The one-level feeding mechanism includes first order kinetics Unit and one-level material lift frame；The first order kinetics unit driving one-level material lift frame moves up and down；The one-level material lift frame includes two The one-level lifting face consistent with supporting surface incline direction, the low side in the lifting face are provided with one-level block piece；The one-level lifting Face interlocks with two supporting surfaces along bar assembly direction of advance part；When one-level material lift frame rises, part bar assembly is by one-level lifting Face is raised, and is rolled into along the incline direction in transfer face on transfer face, and is rested under the stop of one-level block piece on transfer face.

Preferably, the two lifting face is high-end also by dividing bar connecting plate to connect；The upper end of described point of bar connecting plate is high The degree height high-end higher than lifting face.

Preferably, the grading feed arrangement also includes two level feeding mechanism；When one-level material lift frame declines, bar assembly edge Transfer face rolls into the two level feeding mechanism.

Preferably, the two level feeding mechanism includes two level material lift frame, two level transfer rack, two-stage driving gear；Two level is lifted Bin comprises at least 2 material lift units；The material lift unit includes two level sliding block and at least one piece of two level fixed block；The two level Drive mechanism driving two level sliding block lifting；The side of two level sliding block towards the one-level feeding mechanism sets first step；

The two level transfer rack comprises at least two two level relay units, and described two material lift units are in two two levels Turn between unit；Each two level relay unit includes two level transit plate, and two level transit plate is vertically arranged, and towards one-level charger The side of structure is provided with second step；The second step is higher than first step and identical with first step angle of inclination, and second The high-end projection of step is in the centre position of first step；

When two level sliding block is in low level, the top of two level sliding block and second step are coplanar；When two level sliding block is in a high position When, first step is coplanar with second step；First step picks up an at least bar assembly from transfer face and risen, when the two level Sliding block decline after, bar assembly is retained on second step, when two level sliding block rises again, first step again described in transfer While an at least bar assembly rising is picked up on face, the bar assembly on second step is raised to two level by the top of two level sliding block The top of fixed block and two level transit plate.

Preferably, the first step and one-level lifting face interlock diameter of the length for a bar assembly.

Preferably, the grading feed arrangement also includes three-level feeding mechanism；The three-level feeding mechanism is consolidated including three-level Determine frame, three-level lifting frame, three-level drive mechanism；The three-level drive mechanism driving three-level lifting frame lifting；The three-level is fixed The upper surface of frame and three-level lifting frame is respectively provided with multiple step surfaces；The three-level fixed mount and the dislocation of the step surface of three-level lifting frame Arrangement；The top of the step surface and two level fixed block and two level transit plate of the close two level feeding mechanism of the three-level fixed mount is oblique Face is connected；After bar assembly enters three-level fixed mount close to the step surface of two level feeding mechanism, three-level lifting frame lifting, pass through mistake The step surface of position, the support bracket fastened next step surface of three-level is sent to by bar assembly；When the three-level lifting frame declines, it is most Bar assembly is delivered to the bar assembly angle regulator by the latter step surface.

Preferably, the bar assembly angle regulator includes angle recognition mechanism, angle adjusting mechanism, controlling organization； Controlling organization controls angle adjusting mechanism rotating bar assembly, and the angle recognition mechanism passes through far infrared inductor induction rod assembly Both ends projected area, when projected area reaches established standardses, the far infrared inductor sends Stop message to the angle Governor motion, the angle adjusting mechanism are stopped.

Preferably, the heater includes feed mechanism and heating arrangements；The heating arrangements include insulation crust, added Heat coil；The heating coil is in insulation crust；The insulation crust circle along the shaft line direction is provided with the through hole of insertion； The through hole is in inside heating coil；The feed mechanism is conveyer belt；Potsherd is uniformly fixed with the conveyer belt； Bar assembly is placed between two neighboring potsherd.

The utility model compared with prior art, has the advantages that：

Firing equipment provided by the utility model, automaticity are high.By the unified regulation and control of control system, complete to bar Assembly self-feeding, the process for automatically adjusting angle.

Material stock frame has inclined support surface, is aided with block piece, it is ensured that bar assembly slides into the low of supporting surface in time End, is easy to be picked up by one-level feeding mechanism.

One-level feeding mechanism once picks up plurality of rods assembly from material stock frame, to reduce the times of exercise of one-level feeding mechanism, Play energy-saving purpose.

Two level feeding mechanism once picks up an at least bar assembly from material stock frame, to ensure that subsequent job is continuous, provides Time enough supplies one-level feeding mechanism pickup bars assembly.

Bar assembly is gradually sent into angle regulator, multiple step surface feedings by three-level feeding mechanism by multiple step surfaces During, provide time enough and the position of bar assembly is adjusted to other auxiliary devices or operating personnel.

Angle regulator passes through angle adjusting mechanism by far infrared inductor induction rod assembly end projection area Adjust automatically angle, to meet optimal heating angle requirement.

Brief description of the drawings

Fig. 1 is a kind of overall structure diagram of leverage part entirety frequency heating device of the utility model；

Fig. 2 is material stock frame, grading feed arrangement, both ends pair in a kind of leverage part entirety frequency heating device of the utility model Neat device, bar assembly angle regulator, the structural representation of bar assembly feed device；

Fig. 3 is the structure of material stock frame and one-level feeding mechanism in a kind of leverage part entirety frequency heating device of the utility model Schematic diagram；

Fig. 4 is two level feeding mechanism and three-level feeding mechanism in a kind of leverage part entirety frequency heating device of the utility model Structural representation；

Fig. 5 is the thin portion enlarged drawing of A in Fig. 4；

Fig. 6 is two level feeding mechanism feeding process schematic diagram in the utility model；

Fig. 7 is three-level feeding mechanism feeding process schematic diagram in the utility model；

Fig. 8 is the structural representation of heater in the utility model.

Embodiment

The effect of to make to architectural feature of the present utility model and being reached, has a better understanding and awareness, to compared with Good embodiment and accompanying drawing coordinate detailed description, are described as follows：

As shown in figure 1, a kind of leverage part entirety frequency heating device, bar assembly can be vehicle-used stabilizer bar, or other Elongate rod assembly.Firing equipment includes material stock frame 1, grading feed arrangement 2, both ends alignment means 3, bar assembly angle regulator 4th, bar assembly feed device 5, heater 6.It is thin that the bar assembly being stored on material stock frame 1 by grading feed arrangement 2 delivers to bar Part angle regulator 4 carries out angular adjustment, is then sent into by bar assembly feed device 5 in heater 6.Period, bar When assembly passes through grading feed arrangement 2, both ends alignment means 3 carry out both ends alignment to bar assembly.

As shown in Figure 2 and Figure 3, material stock frame 1 is used to deposit substantial amounts of bar assembly.It includes two bin side plates 11；Two bin sides The upper surface of plate 11 is supporting surface 111, and bar assembly load is located on two supporting surface 111；The one end of supporting surface 111 is another to be high-end Hold as low side；Low side is towards grading feed arrangement 2；Lower end is provided with bar assembly block piece 12；The block piece 12 is to support One piece of baffle plate that the bottom of face 111 extends upward；Baffle plate is in the same face with bin side plate 11.The upper surface of baffle plate is that bar is thin Part transfer face 121；The incline direction in transfer face 121 is consistent with supporting surface 111.Baffle plate is towards the high-end side of supporting surface 111 Ramped shaped, it is easy to bar assembly to slip into transfer face 121 along slope.

As shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, grading feed arrangement 2 include one-level feeding mechanism 21, two level feeding mechanism 22, Three-level feeding mechanism 23.One-level feeding mechanism 21 takes plurality of rods assembly to be placed on transfer face 121 from material stock frame 1, and two is grading Material mechanism 22 takes a bar assembly to be sent into three-level feeding mechanism 23 from transfer face 121.In the fill process of three-level feeding mechanism 23 In, both ends alignment means 3 complete bar assembly alignment action.

The concrete structure of three-level feeding mechanism is as follows：

As shown in figure 3, one-level feeding mechanism 21 includes first order kinetics unit and one-level material lift frame, the driving of first order kinetics unit One-level material lift frame moves up and down.One-level material lift frame divides bar connecting plate by two one-level side plates 211 of two one-level side plates 211 and connection 212 are formed.The upper surface of one-level side plate 211 is the consistent one-level lifting face 213 of the incline direction of supporting surface 111, one-level lifting face 213 low side is provided with one-level block piece 214.Two blocks of one-level side plates 211 are in the inner side of two block frame side plate 11 and abutted, can also In the outside of bin side plate 11.One-level lifting face 213 interlocks with two supporting surfaces 111 along bar assembly direction of advance part；Work as one-level When material lift frame rises, part bar assembly is raised by one-level lifting face 213, and transfer face is rolled into along the incline direction in transfer face 121 On 121, and rested under the stop of one-level block piece 2114 on transfer face 121.One-level lifting face 213 and the friendship of supporting surface 111 Wrong width can determine that, when needing once to pick up plurality of rods assembly, that cross width can be a little bigger, and vice versa as needed.

First order kinetics unit is a drive cylinder or oil cylinder (not shown), the structure of first order kinetics unit can be The both sides of one-level material lift frame set a cylinder or oil cylinder respectively, then drive one-level lift with two cylinders or oil cylinder operation simultaneously Bin moves up and down.It is stable during being moved up and down for material lift frame if it is larger to cross material lift frame size, crane can be passed through To realize the lifting of one-level material lift frame.

It is divided to bar connecting plate 212 to be fixed on the high-end of two one-level side plates 211, and divides the top of bar connecting plate 212 to be higher than one-level Side plate 211 it is high-end.When one-level material lift frame raises, the top of bar connecting plate 212 is divided to divide plurality of rods assembly from village's bin Out and along the ramped shaped upward sliding successively of baffle plate, finally roll on transfer face 121, in the stop of one-level block piece 2114 Under, plurality of rods assembly by temporarily it is spacing on transfer face 121 it is stand-by.

As shown in Figure 4, Figure 5, two level feeding mechanism 22 includes two level material lift frame 221, two level transfer rack 222, secondary drive Mechanism.

Two level material lift frame 221 includes at least two material lift units 2211, and the present embodiment employs 2 material lift units 2211, Make more stable in bar assembly running.Two level transfer rack 222 also includes two two level relay units 2221, two two level lifts Material unit 2211 is between two two level relay units 2221.

Material lift unit 2211 includes two level sliding block 22111, two level fixed block 22112.Two level sliding block 22111 and two level are fixed Block 22112 is the platy structure erect and set；The two side abuts against and realizes that two level is slided by the cooperation of chute and feather key Block 22111 moves up and down.Two level fixed block 22112 can be one piece, or two pieces.When being one piece, two level sliding block 22111 along two Level fixed block 22112 side wall moves up and down, and when two level fixed block 22112 is two pieces, two level sliding block 22111 is consolidated by two pieces of two levels Determine block 22112 to clamp, and move up and down.Two pieces of two level sliding blocks 22111 in two material lift units 2211 and two pieces or four pieces The bottom of two level fixed block 22112 is integral through fixation by bearing pin respectively.Two-stage driving gear driving driving bearing pin is realized Three pieces of two level sliding blocks 22111 are synchronized with the movement.

The side medium position of two level sliding block 22111 towards one-level feeding mechanism 21 has first step 2a, first step 2a angle of inclination is consistent with transfer face 121.The top of two level sliding block 22111 is similarly an inclined-plane, angle of inclination and transfer face 121 is consistent.When two level sliding block 22111 is in low level, first step 2a is just connected with transfer face 121.

As shown in fig. 6, two level relay unit 2221 includes two level transit plate 22211；The interposition of two level transit plate 22211 Install and be equipped with second step 2b.Second step 2b is identical with first step 2a angle of inclination.Second step 2b high-end throwing Shadow is probably in first step 2a centre position, that is to say, that first step 2a step bodies stretch to one-level feed mechanism, be easy to from Pickup bars assembly on transfer face 121.When two level sliding block 22111 is in low level, second step 2b surface and two level sliding block 22111 top bevels are in the same face.When two level sliding block 22111 is in it is high-order when, at first step 2a and second step 2b In the same face, and the top of two level sliding block 22111 and the top of two level fixed block 22112 and two level transit plate 22211 are in The same face.After one-level feeding mechanism 21 declines, the bar assembly for losing the barrier effect of one-level block piece 2114 rolls into first along inclined-plane On step 2a, and blocked by the vertical side walls of transit plate 22211.It is thin with an at least bar when two level sliding block 22111 rises Part is risen at second step 2b, and bar assembly is rolled into second step 2b after losing the stop of the vertical side walls of transit plate 22211, when After two level sliding block 22111 declines, bar assembly is left on second step 2b.When two level sliding block 22111 rises again, two level Bar assembly in second step 2b is jacked up and delivers to two level fixed block 22112 and transit plate by the top of sliding block 22111 again 22211 top.The top of two level fixed block 22112 and transit plate 22211 is similarly inclined-plane, and bar assembly slips into along inclined-plane Three-level feeding mechanism 23.

Each two level relay unit 2221 can include two pieces of two level transit plates 22211 being vertically arranged and parallel.For Make bar assembly stable in feeding process, can also set up two level transfer slide plate between two pieces of two level transit plates 22211 22212, the function of being functionally similar to two level sliding block of two level transfer slide plate 22212, i.e. two level transfer slide plate 22212 can transport up and down Dynamic, tact of motion is consistent with two level sliding block 22111.When being in low level of two level transfer slide plate 22212, its top and second step 2b is coplanar, and during rising, its top, which jacks up the bar assembly on second step 2b together with the top of two level sliding block 22111, delivers to two The top of level transit plate 22211.

A bar assembly is picked up from second step 2b every time and delivers to two level fixed block 22112 in the top of two level sliding block 22111 And the top of two level transit plate 22211.

As shown in Fig. 4, Fig. 7, three-level feeding mechanism 23 includes three-level fixed mount 231, three-level lifting frame 232, three-level driving Mechanism；Three-level drive mechanism driving three-level lifting frame 232 lifts.Three-level fixed mount 231 and three-level lifting frame 232 are two pieces and offseted Platy structure connect and vertical state.The upper surface of three-level fixed mount 231 and three-level lifting frame 232 is respectively provided with multiple steps Face；Three-level fixed mount 231 and the step surface of three-level lifting frame 232 dislocation arrangement；The angle of inclination of each step surface and First Rank 2a is identical.For the ease of describing, the step surface in three-level lifting frame 232 and three-level fixed mount 231 is certainly towards two level charger The one end of structure 22 is referred to as First terrace, second step face ... successively to feed mechanism one end.The first of three-level fixed mount 231 Step surface is connected with the top bevel of two level fixed block 22112；It can be rolled after bar assembly enters at the top of two level fixed plate along inclined-plane Enter the First terrace to three-level fixed mount 231, when three-level lifting frame 232 rises, the First terrace of three-level lifting frame 232 Bar assembly to be lifted, bar assembly rolls on the First terrace of three-level lifting frame 232, when three-level lifting frame 232 declines, bar Assembly is dropped on the second step face of three-level fixed mount 231, by that analogy, until when front bar assembly enters three-level fixed mount 231 last step surface.

For bar assembly when being moved on three-level feeding mechanism 23, both ends alignment means 3 can carry out aligning to bar assembly, make Position when it enters heater 6 meets design requirement.

As shown in Fig. 2 both ends alignment means 3 are to be separately fixed at two cylinders 31 of the both sides of three-level feeding mechanism 23, two Individual cylinder 31 carries out jacking to bar assembly simultaneously, to complete the aligning on bar assembly axial direction.Cylinder 31 is fixed on support 32 On.Certainly, for the position of further correcting rod assembly, two groups of cylinders 31 can be set.

Bar assembly entry angle adjusting means 4 by position adjustment.Angle regulator 4 includes angle recognition mechanism 41st, angle adjusting mechanism 42, controlling organization；Controlling organization controls the rotating bar assembly of angle adjusting mechanism 42, angle recognition mechanism 41 by far infrared inductor induction rod assembly both ends projected area, when projected area reaches established standardses, angle adjusting mechanism 42 are stopped.Wherein, angle adjusting mechanism 42 includes active rotating shaft 421 and driven spindle 422, active rotating shaft 421 and driven The axis of rotating shaft 422 and bar assembly diameter parallel.Active runner 423 is respectively fixed with active rotating shaft 421 and driven spindle 422 With with driven runner 424；Active runner 423 and driven runner 424 abut, can be with circumference abutting or active runner 423 Interlock and abut with the driven wheel sections of runner 424.When bar assembly enters last step surface of three-level fixed mount 231, from most The latter step surface is slipped between active runner 423 and driven runner 424.Bar assembly drops into active runner 423 and from turn After wheel 424, controlling organization control active runner 423 starts to rotate to be rotated with driven rod assembly.Angle recognition mechanism 41 includes remote Infrared inductor and the support 412 for fixing far infrared inductor；Support 412 includes stand 4121 and is fixed on stand 4121 The platform 4122 at top.An arched arm 4123 is fixed with platform 4121, Far infrared transmitter is fixed with the top of arched arm 411a, far infrared receiver 411b is fixed with platform, for bar assembly after position adjustment, its end is exactly in receiver Between 411a and transmitter 411b.When the driven rod assembly of angle adjusting mechanism 42 rotates, the angle of its end changes, and leads The projected area for causing far infrared inductor to sense changes, after projected area reaches sets requirement face to face, far infrared sensing Device sends Stop message to controller, and angle adjusting mechanism 42 is stopped, far infrared inductor far infrared inductor bar assembly Angular adjustment finishes.

Next seek to the good bar assembly of angular adjustment being sent into heater 6, the present embodiment passes through feed device 5 Automation feeding is realized, bar assembly is mainly captured by a manipulator 51, is re-fed on heater 6.Manipulator 51 Structure can be a variety of.

As shown in figure 8, heater 6 includes feed mechanism and heating arrangements；Heating arrangements include insulation crust 62, heating Coil；Heating coil is in insulation crust 62；The circle along the shaft line direction of insulation crust 62 is provided with the through hole of insertion；Through hole Inside heating coil；Feed mechanism is conveyer belt；Potsherd 61 is uniformly fixed with a moving belt；Bar assembly is placed on adjacent Between two potsherds 61.

In order to realize Automated condtrol, the firing equipment that the present embodiment provides, proximity switch is added in multiple places, is passed through The cooperation of proximity switch and controller, realize automation feeding.The side of one-level block piece 2114 is specially provided with first to connect Nearly switch 71.The both sides for being used to place bar assembly between active runner 423 and driven runner 424 are provided with the 3rd proximity switch 72.One-level feeding mechanism 21, two level feeding mechanism 22, three-level feeding mechanism 23, both ends alignment means 3, angle regulator 4, Manipulator 51, conveyer belt are controlled by respective controller, the plurality of controller by the cooperation with 2 proximity switches, when Relevant position proximity switch senses that there is bar assembly the position or does not have bar assembly, sends information to controller immediately, control Device control respective drive mechanism driving corresponding mechanism operation, realizes grading feeding, and whole feeding heating process is incremental, without It is artificial to participate in.The control system is prior art, be will not be described in detail herein.

The advantages of general principle of the present utility model, principal character and the utility model has been shown and described above.One's own profession The technical staff of industry is it should be appreciated that the utility model is not restricted to the described embodiments, described in above-described embodiment and specification Simply principle of the present utility model, the utility model also has respectively on the premise of the spirit and scope of the utility model is not departed from Kind changes and improvements, these changes and improvements are both fallen within claimed the scope of the utility model.The requires of the utility model Protection domain defined by appended claims and its equivalent.

Claims (10)

1. A kind of 1. leverage part entirety frequency heating device, it is characterised in that：Including material stock frame (1), grading feed arrangement (2), bar Assembly angle regulator (4), bar assembly feed device (5), heater (6)；The bar being stored on the material stock frame (1) is thin Part delivers to bar assembly angle regulator (4) by grading feed arrangement (2) and carries out angular adjustment, is then sent by bar assembly Expect that device (5) is sent into heater (6).
2. A kind of 2. leverage part entirety frequency heating device according to claim 1, it is characterised in that：The material stock frame (1) Including two supporting surfaces (111), bar assembly load is located on two supporting surface (111)；Described supporting surface (111) one end is high-end, separately One end is low side；The low side is towards grading feed arrangement (2)；The lower end is provided with bar assembly block piece (12)；It is described The upper surface of bar assembly block piece (12) is bar assembly transfer face (121)；The incline direction and supporting surface of the transfer face (121) (111) it is consistent.
3. A kind of 3. leverage part entirety frequency heating device according to claim 2, it is characterised in that：The grading charging dress Putting (2) includes one-level feeding mechanism (21)；The one-level feeding mechanism (21) includes first order kinetics unit and one-level material lift frame；Institute First order kinetics unit driving one-level material lift frame is stated to move up and down；The one-level material lift frame includes two and supporting surface (111) inclination side To consistent one-level lifting face (213), the low side in the lifting face is provided with one-level block piece (214)；The one-level lifting face (213) interlock with two supporting surfaces (111) along bar assembly direction of advance part；When one-level material lift frame rises, part bar assembly quilt One-level lifting face (213) is raised, and is rolled into along the incline direction of transfer face (121) on transfer face (121), and in one-level block piece (214) rested under stop on transfer face (121).
4. A kind of 4. leverage part entirety frequency heating device according to claim 3, it is characterised in that：The two one-levels lifting Face (213) it is high-end also by divide bar connecting plate (212) connect；The upper end level of described point of bar connecting plate (212) is higher than lifting The high-end height in face.
5. A kind of 5. leverage part entirety frequency heating device according to claim 3, it is characterised in that：The grading charging dress Putting (2) also includes two level feeding mechanism (22)；The two level feeding mechanism (22) includes two level material lift frame (221), two level transfer Frame (222), two-stage driving gear；Two level material lift frame (221) comprises at least 2 material lift units (2211)；The material lift unit (2211) two level sliding block (22111) and at least one piece of two level fixed block (22112) are included；The two-stage driving gear drives two level Sliding block (22111) lifts；The two level sliding block (22111) sets first step (2a) towards the side of one-level feeding mechanism (21)； When one-level material lift frame declines, bar assembly rolls into first step (2a) along transfer face (121)；

   The two level transfer rack (222) comprises at least two two level relay units (2221), described two material lift units (2211) Between two two level relay units (2221)；Each two level relay unit (2221) includes two level transit plate (22211), and two Level transit plate (22211) is vertically arranged, and the side of one-level feeding mechanism (21) is provided with second step (2b)；Described Two steps (2b) are higher than first step (2a) and, the high-end projection of second step (2b) identical with first step (2a) angle of inclination In first step (2a) centre position；

   When two level sliding block (22111) is in low level, the top of two level sliding block (22111) and second step (2b) are coplanar；When two When level sliding block (22111) is in high-order, first step (2a) and second step (2b) are coplanar；First step (2a) is from transfer face (121) pick up an at least bar assembly on to rise, after the two level sliding block (22111) declines, bar assembly is retained in second On rank (2b), when two level sliding block (22111) rises again, first step (2a) again described in pick up on transfer face (121) While at least a bar assembly rises, the bar assembly on second step (2b) is raised to by the top of two level sliding block (22111) The top of two level fixed block (22112) and two level transit plate (22211).
6. A kind of 6. leverage part entirety frequency heating device according to claim 5, it is characterised in that：The first step (2a) and one-level lifting face (213) interlock diameter of the length for a bar assembly.
7. A kind of 7. leverage part entirety frequency heating device according to claim 5, it is characterised in that：The grading charging dress Putting (2) also includes three-level feeding mechanism；The three-level feeding mechanism include three-level fixed mount (231), three-level lifting frame (232), Three-level drive mechanism；Three-level drive mechanism driving three-level lifting frame (232) lifting；The three-level fixed mount (231) and three The upper surface of level lifting frame (232) is respectively provided with multiple step surfaces；The three-level fixed mount (231) and three-level lifting frame (232) Step surface dislocation arrangement；The step surface of the close two level feeding mechanism of the three-level fixed mount (231) and two level fixed block (22112) and two level transit plate (22211) top bevel linking；When bar assembly enters three-level fixed mount (231) close to two level After the step surface of feeding mechanism, three-level lifting frame (232) lifting, by the step surface of dislocation, bar assembly is sent to three-level and consolidated Next step surface of fixed rack；When the three-level lifting frame (232) declines, bar assembly is delivered to institute by its last step surface State bar assembly angle regulator (4).
8. 8. according to a kind of any described leverage part entirety frequency heating devices of claim 1-7, it is characterised in that：The bar is thin Part angle regulator (4) includes angle recognition mechanism, angle adjusting mechanism, controlling organization；Controlling organization controls angular adjustment Mechanism rotating bar assembly, the angle recognition mechanism work as projection by far infrared inductor induction rod assembly both ends projected area When area reaches established standardses, the far infrared inductor sends Stop message and adjusted to the angle adjusting mechanism, the angle Section mechanism is stopped.
9. A kind of 9. leverage part entirety frequency heating device according to claim 7, it is characterised in that：The bar assembly feeding Device (5) includes manipulator (51)；The manipulator (51) captures bar assembly from angle adjusting mechanism and delivers to heater (6)。
10. 10. according to a kind of any described leverage part entirety frequency heating devices of claim 1-7, it is characterised in that：It is described to add Thermal (6) includes feed mechanism and heating arrangements；The heating arrangements include insulation crust (62), heating coil；It is described to add Heat coil is in insulation crust (62)；Insulation crust (62) the circle along the shaft line direction is provided with the through hole of insertion；It is described Through hole is in inside heating coil；The feed mechanism is conveyer belt；Potsherd (61) is uniformly fixed with the conveyer belt； Bar assembly is placed between two neighboring potsherd (61).