CN206591031U - Drift intermediate frequency induction heating device - Google Patents

Abstract

A kind of drift intermediate frequency induction heating device, including frame；Frequency Induction Heating case elevating mechanism, is located at the right-hand member of frame；Frequency Induction Heating case, is located on Frequency Induction Heating case elevating mechanism, is stretched in the middle part of its coil outside Frequency Induction Heating case, coil pipe chamber, feature are formed with the middle part of coil：Also mechanism, chuck rotary motion mechanism, sliding platform, sliding platform left and right displacement controlling organization and drift are moved forward and backward including Frequency Induction Heating case clamp chuck, Frequency Induction Heating case moves forward and backward mechanism and is mounted on Frequency Induction Heating case elevating mechanism, sliding platform is located at the left end of frame, chuck rotary motion mechanism is located on sliding platform, sliding platform left and right displacement controlling organization is located in frame, and drift clamps chuck and fixed with chuck rotary motion mechanism.Ensure the thermally equivalent effect of drift；Promote the adaptability that Frequency Induction Heating case changes to drift specification；It is not in the situation for other parts that coil is undermined because coming off or even machinery is undermined.

Description

Drift intermediate frequency induction heating device

Technical field

The invention belongs to the technical field of auxiliary facilities of glass mold manufacture, and in particular to a kind of drift Medium frequency induction adds Thermal.

Background technology

It is to produce glass container using osculum press-and-blow process known to industry that function of the foregoing drift on glass mold, which is, Such as the essential element of vial.When a pair of parison mold half modules opposite each other（Industry custom is referred to as blocker half module）After closure, The frit of melting introduces parison mold half module die cavity, and will be located at parison mold half module die cavity by the high temperature glass frits of molten condition In drift it is complete or partial（For different glass container products）Parcel, it is then cold by the drift in the drift chamber of drift But device quickly cools down drift, to make the melten glass material cooling for being previously wrapped in drift outer wall, removes drift, then blows, Blank is formed, parison mold half module is finally opened, glass container blank and then is introduced into shaping mould carries out secondary blow molding.

Because frit is very sensitive to the shape of drift, even micro- vast dimensional discrepancy can all influence glass container Molding effect.Therefore usually require that drift have good heat endurance and using avoid deformation, preferable wearability and use Embody longer service life and excellent evenness of wall thickness and use the one of the quality such as wall thickness for ensureing final glass container Cause property effect.

Foregoing Frequency Induction Heating is to by permeability magnetic material such as carbon steel in the form of electromagnetic eddy produces heat（Industry Claim mould steel）, the glass mold drift that makes of the material such as copper alloy and stainless steel heated.Such as glass mold manufacture industry institute The reason known, due to drift under arms during i.e. directly frequently contacted with the glass melt of molten in use, by glass The chemical erosion of glass melt, wear and tear and the alternating thermal stress that is cooled effect, simultaneously because being chronically at 500-800 DEG C or so Hot environment, therefore such as fatigue damage, oxidation and corrosion and damage, wear damage and/or the feelings for hitting damage occur in drift Shape, etc., so as to influence its service life, is embodied in and scraps in advance, the cost of increase glassware manufacturing enterprise, and Also result in the wasting of resources.

Being used in punch head surface surfacing Ni based alloys welding powder or tungsten carbide spray welding material improves the heat endurance, resistance to of drift The uniformity of mill property, fatigue durability and wall thickness is the common practice of current industry, and is completing to punch head surface surfacing Need to introduce subsequent processing implementation polishing after Ni based alloys welding powder or tungsten carbide welding powder（Reference can be made to CN105033832A ＜ glass molds The automatic polishing device ＞ of drift）, and need to heat drift before polishing.（Also referred to as " it is heat-treated ", it is as follows）, the mesh of heating Be eliminate stress so that drift under arms during show preferable service life.

It is to the mode for implementing heating before entering polishing at present：Drift is clipped on fixture, oxygen second is held by workman's hand Alkynes welding gun is heated, and this manual mode of heating at least has the following disadvantages：First, not only the operation intensity of workman is big, and And the efficiency of heating surface is low；Second, due to needing a large amount of consumption acetylene gas, thus be unfavorable for economizing on resources；Third, due to degree of heat By artificial subjective control, thus it is not enough to ensure desired heating effect, for example, negative and positive situation, so-called negative and positive situation easily occurs Referring to the uniformity of the heating-up temperature of whole drift can not ensure, because to the quality and the warp of workman of the heating effect of drift Test, the factor such as accountability or even mood it is related；Fourth, operational security difference is accompanied by potential safety hazard, such as oxyacetylene peace Manage entirely cumbersome.

The technical information of glass mold intermediate frequency induction heating device can be seen in disclosed Chinese patent literature, typically Such as " mold heating device " that CN201039510Y recommends, " in glass mold of more typical such as CN102875009B offers The latter in frequency induction heating apparatus ", this two patents is the improvement to the former, and can be found in the specification the 0006th of the latter Section is to 0020 section.

Objectively say because foregoing CN102875009B utilizes Frequency Induction Heating, thus have for the heating of drift Certain reference function, but there is following shortcoming in the CN102875009B：First, because heated glass mold is static Ground is placed in the Refractory blocks of mould placement seat of board, then in heating process, heated equal of the surrounding of glass mold Even property relative mistake, because the wall thickness at the two ends of glass mold and matched moulds is different from the thickness in other regions；Second, by It can only lift and can not move forward and backward in Frequency Induction Heating case, thus to the declinable bad adaptability of rule of glass mold；Its Three, due to glass mold is placed in vertical state in foregoing Refractory blocks by workman before heating, i.e., without to glass The locating effect of mould, thus easily toppled in the situation of the vibration of actual mechanical process chance such as Work places etc, In the presence of the anxiety for undermining coil with pounding damage other machinery part.In view of being not limited to these described shortcoming, it is necessary to be subject to rationally Improve and it is met the heating requirements to drift, technical scheme described below is produced under this background.

The content of the invention

The task of the present invention is that providing one kind helps to clamp drift and drift can be made to be turned round in heating process And use ensure the overall thermally equivalent effect of drift, be conducive to making Frequency Induction Heating case according to need to lift or move forward and backward and by Prevent drift to promote to use the clamping effect of drift the adaptability of the drift of different size and being beneficial for ensuring that and adding The drift intermediate frequency induction heating device of other parts of coil or machinery is undermined in thermal process because coming off.

What the task of the present invention was performed by, a kind of drift intermediate frequency induction heating device, including a frame；One intermediate frequency Sensing heating case elevating mechanism, the Frequency Induction Heating case elevating mechanism is arranged on the right-hand member of the frame with fluctuating；One Frequency Induction Heating case, the Frequency Induction Heating case is arranged on described Frequency Induction Heating case elevating mechanism, and in this It is stretched over outside the casing of Frequency Induction Heating case, and is formed with the middle part of the coil in the middle part of the coil of frequency sensing heating case Coil pipe chamber, is characterised by that also including a Frequency Induction Heating case moves forward and backward mechanism, a chuck rotary motion mechanism, a slip Platform, a sliding platform left and right displacement controlling organization and a drift clamp chuck, and Frequency Induction Heating case moves forward and backward mechanism and taken It is loaded on the Frequency Induction Heating case elevating mechanism, and is connected with the bottom of Frequency Induction Heating case, sliding platform correspondence In the Frequency Induction Heating case left slide be arranged on the left end of the frame, chuck rotary motion mechanism is arranged on cunning On moving platform and in company with sliding platform left and right displacement and displacement, sliding platform left and right displacement controlling organization correspond to slide it is flat Be arranged in the frame and be driven with side of the sliding platform under below platform and coordinated, drift clamp chuck with it is described The left end of coil is corresponding and is fixed with the chuck rotary motion mechanism.

In the specific embodiment of the present invention, described Frequency Induction Heating case elevating mechanism is led including crane Rod set, crane guide rod, crane, crane hoisting cross beam and scissor lift top, the rectangular fiame-like construction of crane rise Drop frame guide rod is cased with four and is fixed on the right-hand member of the frame in the position in four corners for corresponding respectively to crane, rises Drop frame guide rod equally has four angles of the side of the upper end of four and four crane guide rods respectively with crane under Portion is fixed, and forms sliding pair, crane liter in the lower end of crane guide rod insertion crane leader casing with crane leader casing Drop crossbeam is fixed on the bottom of crane, and scissor lift top is fixed on the base support beam of the right-hand member of frame and and crane The middle part of side of the hoisting cross beam under is corresponding；Described Frequency Induction Heating case is slidably matched with described crane； Described Frequency Induction Heating case moves forward and backward mechanism and is mounted on described crane.

In another specific embodiment of the present invention, described scissor lift top includes top, first, second, the 3rd, the 4th support arm, base, support arm screw shaft and support arm screw shaft hand wheel, top lift horizontal with the crane The middle part of side of the beam under is corresponding, and one end of the first support arm and the second support arm towards support arm screw shaft is common Ground is hinged in left hinge block, and the left hinge block and the left end formation screw thread pair of support arm screw shaft, the first support arm direction One end of top is hinged with the left end come directly towards, and the second support arm is hinged towards the left end of one end of base and base, the 3rd support One end of arm and the 4th support arm is jointly hinged in right hinge block, and the right hinge block and the left end of support arm screw shaft Screw thread pair is formed, the 3rd support arm is hinged towards the right-hand member of one end and top of top, and the 4th support arm is towards one end of base It is hinged with the right-hand member of base, base is fixed on the base support beam of the rear end of the frame, the right side of support arm screw shaft End is rotatably supported on support arm screw rod axle bed and is stretched over the right side of support arm screw rod axle bed, and the support arm screw shaft Seat is fixed in frame, and support arm screw shaft hand wheel is fixed on the right-hand member of support arm screw shaft.

In another specific embodiment of the present invention, it is provided with the bottom corresponding to the Frequency Induction Heating case One Frequency Induction Heating case travelling carriage, is respectively fixed with the left bottom and bottom right side of the Frequency Induction Heating case travelling carriage One travelling carriage guide rail, travelling carriage guide rail with being slidably matched with the guide rail slide block that is arranged in pairs, and the guide rail slide block be fixed on it is described Crane on, Frequency Induction Heating case is fixed on the top of described Frequency Induction Heating case travelling carriage, in the intermediate frequency sense Answer on heater box travelling carriage and be fixed with a slip in the position for moving forward and backward mechanism corresponding to the Frequency Induction Heating case Frame middle cross beam, Frequency Induction Heating case moves forward and backward mechanism and is connected with the travelling carriage middle cross beam.

In another specific embodiment of the present invention, described Frequency Induction Heating case is moved forward and backward before mechanism includes Afterwards displacement screw shaft, move forward and backward screw shaft driving handwheel, move forward and backward nut, move forward and backward screw shaft front-end and back-end each logical Cross and move forward and backward screw shaft fulcrum bearing and be rotatably supported on the crane, move forward and backward handwheel and be fixed on anteroposterior position and claim screw rod The front end of axle, move forward and backward nut be disposed in move forward and backward on screw shaft and by move forward and backward nut attachment screw with it is described Travelling carriage middle cross beam is fixedly connected.

In the also specific embodiment of the present invention, described chuck rotary motion mechanism includes driving box case Cover, chuck drive motor, chuck drive reduction box, driving wheel, chuck driveshaft, driven pulley, transmission belt, chuck driveshaft left axle Seat, chuck driveshaft right axle seat and chuck fixed seat, driving box case cover are fixed on described sliding platform towards upper side, card Disk-drive motor is driven with chuck drive reduction box to be coordinated and is being driven by chuck drive reduction box together with chuck drive motor The front side of the sliding platform is fixed in the driving box case cover chamber of case case cover, driving wheel is fixed on subtracting for chuck drive reduction box On fast case output shaft, chuck driveshaft left bracket and chuck driveshaft right axle seat or so are corresponding and in driving box case cover chamber The rear side of sliding platform is fixed on, the left end of chuck driveshaft is rotatably supported on chuck driveshaft left bracket, and chuck drives The right-hand member of moving axis is rotatably supported on chuck driveshaft right axle seat, and is stretched over outside driving box case cover chamber, and driven pulley is right It should be fixed in the position between the left and right axle bed of chuck driveshaft in chuck driveshaft, one end of transmission belt is nested with driven pulley On, the other end is nested with driving wheel, and chuck fixed seat is fixed on the right-hand member of chuck driveshaft, described drift clamp chuck with Chuck fixed seat is fixed.

In a still more specific embodiment of the invention, described driving wheel and driven pulley are sprocket wheel or belt Wheel, described transmission belt is chain or driving belt.

The present invention's and then in a specific embodiment, on the right side of the driving box case cover and corresponding to institute The position for stating the right-hand member of chuck driveshaft offers one case cover resigning chamber, and the right-hand member of chuck driveshaft is stretched by way of the case cover resigning chamber Open up outside the driving box case cover chamber.

It is each logical with upper back on front side of the left end of the frame in yet a further embodiment of the present invention Cross guide rail cushion block and be fixed with a sliding platform guide rail, and lead in the front side of the platform and rear side and corresponding to sliding platform The position of rail is respectively fixed with pair of sliding platform sliding block, and this pair of sliding platform sliding block is slidably matched with sliding platform guide rail, works as behaviour When indulging the sliding platform left and right displacement controlling organization, the sliding platform is slided to the left or to the right on the platform rail.

In the present invention again and then in a specific embodiment, described sliding platform left and right displacement controlling organization includes Gear shaft, gear, rack and handwheel, are supported on rear bearing block the rear end thereof of gear shaft, and the front end of gear shaft is rotated Ground is supported on front-end bearing pedestal and is stretched over the front side of front-end bearing pedestal, rear bearing block and front-end bearing pedestal correspond to each other and with The frame is fixed, and rack is fixed on the middle part of side of the sliding platform under, and gear is in the position corresponding to rack It is fixed on gear shaft and is meshed with rack, handwheel is fixed on the front end of gear shaft.

One of technique effect of technical scheme that the present invention is provided, due to making drift clamp card by chuck rotary motion mechanism Disk is turned round, and clamping chuck by drift drives the drift clamped thereon accordingly to turn round, thus can ensure the thermally equivalent effect of drift； Two, due to by Frequency Induction Heating case elevating mechanism and Frequency Induction Heating case move forward and backward mechanism ensure Medium frequency induction add Hot tank can promote the adaptability that Frequency Induction Heating case changes to drift specification according to need to lift or move forward and backward；Three, by Drift clamps chuck by drift and reliably clamped when being heated to drift, thus is not in that coil or even damage are undermined because coming off And the situation of other parts of machinery.

Brief description of the drawings

Fig. 1 is embodiments of the invention and application examples structure chart.

Fig. 2 is Fig. 1 front view.

Embodiment

In order to be more clearly understood from the technical spirit and beneficial effect of the present invention, applicant is below with embodiment Mode elaborate, but to the description of embodiment be not the limitation to the present invention program, it is any according to structure of the present invention Think made only formal rather than substantial equivalent transformation and be regarded as technical scheme category.

In the following description it is every be related to upper and lower, left and right, the directionality of front and rear or directionality concept be all For the location of scheming for describing state, thus it can not be understood as to the technical scheme of the invention provided It is particularly limited to.

Fig. 1 is referred to, a frame 1 is shown, the frame 1 is in the rectangular frame columnar structure of hollow out；Show an intermediate frequency sense Heater box elevating mechanism 2 is answered, the Frequency Induction Heating case elevating mechanism 2 fluctuates（Lift）Ground is arranged on foregoing frame 1 Right-hand member；A Frequency Induction Heating case 3 is shown, the Frequency Induction Heating case 3 is arranged on foregoing Frequency Induction Heating case liter On descending mechanism 2, and the middle part of the coil 31 of the Frequency Induction Heating case 3 is stretched over the casing of Frequency Induction Heating case 3 to the left Outside, and at the middle part of the coil 31 it is formed with coil pipe chamber 311.

Due to above mentioned Frequency Induction Heating case 3 structure generally with the superincumbent background technology column of applicant The CN102875009B referred to is identical, thus only makees described briefly below.Frequency Induction Heating case 3 passes through circuit 33（Fig. 2 marks Show）It is connected with electric control box electrical control, the middle part of the coil 31 of Frequency Induction Heating case 3 is repeated and formed with a plurality of circles Coil-like, the middle section of a plurality of circles is configured to foregoing coil pipe chamber 311, so that drift 9 as shown in Figure 1 is insinuated into disk In tube chamber 311.Coil 31 is fixed by coil holder 312 with power folder post 34, and power folder post 34 is by pressing from both sides post fixed seat 341 with Frequency sensing heating case 3 is fixed.One end of coil 31 is fixedly connected with the first conductive plate 35a, and the other end and the second conductive plate 35b are solid Fixed connection.Water inlet pipe 36a and return pipe 36b are also show in figure, water inlet pipe 36a is connected with one end of coil 31, and backwater Pipe 36b is connected with the other end of coil 31, is entered, return pipe 36a, 36b and the water circulation being made up of water tank, water pump and pump motor Cooling body is connected, although the not shown water circulation cooling body in figure, as long as passing through the reading to CN102875009B Just it can fully understand.Certainly, coil 31 is hollow, to be cooled down by the backflow of recirculated cooling water to it.

Fan 37 can be also arranged on foregoing Frequency Induction Heating case 3 as preferred scheme.

The technical essential of the technical scheme provided as the present invention：In the structural system of drift intermediate frequency induction heating device Also include a Frequency Induction Heating case and move forward and backward mechanism 4, a chuck rotary motion mechanism 5, a sliding platform 6, a slip Platform left and right displacement controlling organization 7 and a drift clamp chuck 8, and Frequency Induction Heating case moves forward and backward mechanism 4 and carried to be set shortly Put on frequency sensing heating case elevating mechanism 2 in the preamble, and be connected with the bottom of Frequency Induction Heating case 3,6 pairs of sliding platform Should in foregoing Frequency Induction Heating case 3 left slide be arranged on the left end of foregoing frame 1, chuck rotary motion mechanism 5 is set Put on sliding platform 6 and in company with sliding platform 6 left and right displacement and displacement, 7 pairs of sliding platform left and right displacement controlling organization It should be arranged in foregoing frame 1 and be driven with side of the sliding platform 6 under in the lower section of sliding platform 6 and be coordinated, drift Clamp chuck 8 corresponding with the left end of foregoing coil 31 and fixed with aforementioned chuck rotary motion mechanism 5.

Continue to see Fig. 1, foregoing Frequency Induction Heating case elevating mechanism 2 includes crane leader casing 21, crane guide rod 22nd, crane 23, crane hoisting cross beam 24 and scissor lift top 25, the rectangular fiame-like construction of crane 23 are in mouth word The construction of shape, crane leader casing 21 has four and corresponded respectively to before the position in four corners of crane 23 is fixed on State the right-hand member of frame 1, crane guide rod 22 equally have the upper end of four and four crane guide rods 22 respectively with crane Four corners of 23 side under are fixed, and the interior and crane of the lower end of crane guide rod 22 insertion crane leader casing 21 The formation sliding pair of leader casing 21, crane hoisting cross beam 24 is fixed on the bottom of crane 23, and scissor lift top 25 is fixed on machine The middle part of side on the base support beam 11 of the right-hand member of frame 1 and with crane hoisting cross beam 24 under is corresponding；It is foregoing Frequency Induction Heating case 3 be slidably matched with foregoing crane 23；Foregoing Frequency Induction Heating case moves forward and backward mechanism 4 and taken It is loaded on foregoing crane 23.

Refer to Fig. 2, foregoing scissor lift top 25 include 251, first, second, third, fourth support arm 252 of top, 253rd, 254,255, base 256, support arm screw shaft 257 and support arm screw shaft hand wheel 258, top 251 and foregoing liter The middle part for dropping frame hoisting cross beam 24 side under is corresponding, and the first support arm 252 and the second support arm 253 are towards support One end of arm screw shaft 257 is jointly hinged on left hinge block 259a, and the left hinge block 259a and support arm screw shaft 257 Left end formation screw thread pair, the first support arm 252 towards top 251 one end with come directly towards 251 left end be hinged, the second support arm 253 are hinged towards one end of base 256 and the left end of base 256, one end of the 3rd support arm 254 and the 4th support arm 255 Jointly it is hinged on right hinge block 259b, and the right hinge block 259b and support arm screw shaft 257 left end formation screw thread pair, 3rd support arm 254 is hinged towards one end of top 251 with coming directly towards 251 right-hand member, and the 4th support arm 255 is towards base 256 One end and the right-hand member of base 256 are hinged, and base 256 is fixed on the said base backbar 11 of the rear end of foregoing frame 1, support The right-hand member of arm screw shaft 257 is rotatably supported on support arm screw rod axle bed 2571 and is stretched over support arm screw rod axle bed 2571 Right side, and the support arm screw rod axle bed 2571 is fixed in frame 1, and support arm screw shaft hand wheel 258 is fixed on support The right-hand member of arm screw shaft 257.

Continue to see Fig. 2, when in a clockwise direction operating supporting arm screw shaft hand wheel 258 by operative employee, by propping up Bearing arm screw shaft hand wheel 258 drives supporting arm screw shaft 257, left hinge block 259a and the right opposite positions of hinge block 259b Move, first, second, third, fourth support arm 252,253,254,255 for forming parallelogram draws in and risen, and drives top First 251, pushed up upwards by 251 pairs of top crane hoisting cross beam 24, crane 23 is increased, foregoing Frequency Induction Heating case 3 And Frequency Induction Heating case moves forward and backward mechanism 4 and also risen simultaneously, vice versa.

Continue to see Fig. 1, Frequency Induction Heating case slip is provided with the bottom corresponding to foregoing Frequency Induction Heating case 3 Frame 32, a travelling carriage guide rail 321 is respectively fixed with the left bottom and bottom right side of the Frequency Induction Heating case travelling carriage 32, Travelling carriage guide rail 321 with being slidably matched with the guide rail slide block 3211 that is arranged in pairs, and the guide rail slide block 3211 be fixed on it is foregoing On crane 23, Frequency Induction Heating case 3 is fixed on foregoing Frequency Induction Heating case travelling carriage 32 by heater box screw 38 Top, on Frequency Induction Heating case travelling carriage 32 and moving forward and backward mechanism 4 corresponding to foregoing Frequency Induction Heating case Position be fixed with a travelling carriage middle cross beam 322, Frequency Induction Heating case moves forward and backward mechanism 4 and the travelling carriage middle cross beam 322 Connection.

Continue to see Fig. 1, foregoing Frequency Induction Heating case move forward and backward mechanism 4 include moving forward and backward screw shaft 41, it is front and rear Displacement screw shaft drives handwheel 42, moves forward and backward nut 43, moves forward and backward the front-end and back-end of screw shaft 41 respectively by moving forward and backward Screw shaft fulcrum bearing 411 is rotatably supported on foregoing crane 23, is moved forward and backward handwheel 42 and is fixed on anteroposterior position and claims screw shaft 41 front end, moves forward and backward nut 43 and is disposed in and move forward and backward on screw shaft 41 and by moving forward and backward nut attachment screw 431 are fixedly connected with foregoing travelling carriage middle cross beam 322.

According to Fig. 1, when operator operates to moving forward and backward screw shaft driving handwheel 42, screw shaft is moved forward and backward by this and driven Wheel 42 of starting is driven and moves forward and backward screw shaft 41 and rotate, and 43, nut is moved forward and backward so as to be driven by moving forward and backward screw shaft 41 Move, be fixedly connected due to moving forward and backward nut 43 with travelling carriage middle cross beam 322, and due to travelling carriage middle cross beam 322 and intermediate frequency sense Heater box travelling carriage 32 is answered to fix, due also to Frequency Induction Heating case 3 is fixed with Frequency Induction Heating case travelling carriage 32, thus by Move forward and backward movement of the nut 43 on screw shaft 41 is moved forward and backward and drive Frequency Induction Heating case travelling carriage 32 to move forward and backward. Specifically：Slided by travelling carriage guide rail 321 on guide rail slide block 3211.Frequency Induction Heating case travelling carriage 32 is together with Medium frequency induction The displacement forward or backward of heater box 3 depends on driving the operation clockwise or counterclockwise of handwheel 42 to moving forward and backward screw shaft.

Please continue to refer to Fig. 1, foregoing chuck rotary motion mechanism 5 includes driving box case cover 51, chuck drive motor 52, card Dish driving reduction box 53, driving wheel 54a, chuck driveshaft 55, driven pulley 54b, transmission belt 56, chuck driveshaft left bracket 57, Chuck driveshaft right axle seat 58 and chuck fixed seat 59, driving box case cover 51 are fixed on foregoing sliding platform 6 towards upper one Side, chuck drive motor 52 is driven with chuck drive reduction box 53 to be coordinated and by chuck drive reduction box 53 together with chuck drive Motor 52 is fixed on the front side of foregoing sliding platform 6 in the driving box case cover chamber 511 of driving box case cover 51, and driving wheel 54 is fixed On the reduction gearbox output shaft 531 of chuck drive reduction box 53, chuck driveshaft left bracket 57 and chuck driveshaft right axle seat 58 or so correspondences and the rear side that sliding platform 6 is fixed in driving box case cover chamber 511, the left end of chuck driveshaft 55 are rotated Ground is supported on chuck driveshaft left bracket 57, and the right-hand member of chuck driveshaft 55 is rotatably supported at chuck driveshaft right axle seat On 58, and be stretched over outside driving box case cover chamber 511, driven pulley 54b corresponding to the left and right axle bed 57,58 of chuck driveshaft it Between position be fixed in chuck driveshaft 55, one end of transmission belt 56 is nested with driven pulley 54b, the other end be nested with actively Take turns on 54a, chuck fixed seat 59 is fixed on the right-hand member of chuck driveshaft 55, and foregoing drift clamps chuck 8 and chuck fixed seat 59 fix.

When chuck drive motor 52 works, chuck drive reduction box 53 is driven by it, by chuck drive reduction box 53 Reduction gearbox output shaft 531 drives driving wheel 54a, and driven pulley 54b is driven through transmission belt 56, and chuck drive is driven by driven pulley 54b Axle 55, chuck fixed seat 59 is driven by chuck driveshaft 55, is driven drift to clamp chuck 8 by chuck fixed seat 59, is pressed from both sides by drift The disk 8 that is loaded drives the drift 9 clamped thereon.As shown in Fig. 1 and Fig. 2, drift 9 is clamped one group of clamping jaw 81 of chuck 8 by drift（Three Individual clamping jaw）Clamp.

In the present embodiment, foregoing driving wheel 54a and driven pulley 54b is sprocket wheel, and foregoing transmission belt 56 is chain, But if replacing sprocket wheel with belt pulley, while replacing chain with driving belt, then should be considered as equivalent.

As shown in Figure 1, on the right side of foregoing driving box case cover 51 and in the right-hand member corresponding to aforementioned chuck drive shaft 55 Position offer one case cover resigning chamber 512, the right-hand member of chuck driveshaft 55 is stretched over foregoing drive by way of the case cover resigning chamber 512 Outside dynamic case case cover chamber 511.

Continue to see Fig. 1, a cunning is respectively fixed with by guide rail cushion block 121 with upper back on front side of the left end of foregoing frame 1 Moving platform guide rail 12, and in the front side of previous platform 6 and rear side and in each fixation in position corresponding to sliding platform guide rail 12 There is pair of sliding platform sliding block 61, this pair of sliding platform sliding block 61 is slidably matched with sliding platform guide rail 12, when the foregoing cunning of manipulation During moving platform left and right displacement controlling organization 7, foregoing sliding platform 6 is slided to the left or to the right on previous platform guide rail 12.

Continue to see Fig. 1, foregoing sliding platform left and right displacement controlling organization 7 preferred rather than the structure that is definitely limited to are such as Under：Including gear shaft 71, gear 72, rack 73 and handwheel 74, it is supported on rear bearing block 711 rear end thereof of gear shaft 71 On, and the front end of gear shaft 71 is rotatably supported on front-end bearing pedestal 712 and is stretched over the front side of front-end bearing pedestal 712, rear axle Bearing 711 and front-end bearing pedestal 712 correspond to each other and fixed with foregoing frame 1, and rack 73 is fixed on the foregoing court of sliding platform 6 The middle part of downward side, gear 72 is fixed on gear shaft 71 in the position corresponding to rack 73 and mutually nibbled with rack 73 Close, handwheel 74 is fixed on the front end of gear shaft 71.

When being operated by operating personnel to handwheel 74, by handwheel 74 with movable gear shaft 71, because gear 72 is fixed on gear On axle 71, thus rotated by gear shaft 71 with moving gear 72, tooth is driven because gear 72 is meshed with rack 73, thus by gear Bar 73, because rack 73 is fixed on side of the sliding platform 6 under, thus drives the displacement of sliding platform 6, by sliding by rack 73 Moving platform 6 drives aforementioned chuck rotary motion mechanism 5 and drift to clamp the corresponding displacement of chuck 8.Sliding platform 6 is leftward or rightward Displacement depends on the operation clockwise or counterclockwise to handwheel 74.

Applicant combines the use of Fig. 1 and Fig. 2 description present invention, first by online assignment personnel by the base portion 91 of drift 9 It is clipped on drift to clamp on chuck 8, i.e., is clamped punch base 91 by one group of clamping jaw 81.Then handwheel 74 is operated, makes slip The displacement to the right of platform 6, enters in the coil bore 311 of coil 31 so that the right-hand member of drift 9 is drift body.Medium frequency induction is connected to add The power supply of hot tank 3, i.e. Frequency Induction Heating case 3 are in running order, drift 9 is generated heat by coil 31, that is, with electromagnetism whirlpool The form of miscarriage heat amount is heated to drift 9, meanwhile, chuck drive motor 52 works, and drift 9 is in rotation status. In this process, above mentioned water circulation cooling body is in running order.As online assignment personnel, to see drift 9 aglow When, then make the break-off of Frequency Induction Heating case 3.It can also be set in the left side of Frequency Induction Heating case 3 with horizontal boom state Put an infrared thermometry head for being used to find out the heating-up temperature of drift 9 and be electrically connected with electric control box, such as it is hot When outside line temperature measuring head measures 400 DEG C（Only example）, then signal is fed back into electric control box by infrared thermometry head, Instruction is sent by electric control box and Frequency Induction Heating case 3 is stopped.While the structure of chuck rotary motion mechanism 5 The chuck drive motor 52 of system is also stopped.By online assignment personnel to the reverse operating of handwheel 74, drift 9 is set to exit coil bore 311, and drift 9 is clamped from drift removed on chuck 8, next drift 9 for awaiting heating is clamped into drift clamps On disk 8, and the drift 9 for completing heating is transferred to polishing process polishing.

When the specification of drift 9 changes, then can by foregoing Frequency Induction Heating case elevating mechanism 2 and Adaptation is given in the operation that Frequency Induction Heating case moves forward and backward mechanism 4, to ensure that drift 9 is able to the center corresponding to coil bore 311 Position.

In summary, the technical scheme that the present invention is provided compensate for the shortcoming in prior art, favorably accomplish invention Task, has faithfully cashed the technique effect referred in the superincumbent technique effect column of applicant.

Claims (10)

1. a kind of drift intermediate frequency induction heating device, including a frame (1)；One Frequency Induction Heating case elevating mechanism (2), in this Frequency sensing heating case elevating mechanism (2) is arranged on the right-hand member of the frame (1) with fluctuating；One Frequency Induction Heating case (3), The Frequency Induction Heating case (3) is arranged on described Frequency Induction Heating case elevating mechanism (2), and the Frequency Induction Heating It is stretched in the middle part of the coil (31) of case (3) outside the casing of Frequency Induction Heating case (3), and in the middle part shape of the coil (31) Into there is coil pipe chamber (311), it is characterised in that also include a Frequency Induction Heating case and move forward and backward mechanism (4), chuck revolution Drive mechanism (5), a sliding platform (6), a sliding platform left and right displacement controlling organization (7) and a drift clamp chuck (8), in Frequency sensing heating case moves forward and backward mechanism (4) and is mounted on the Frequency Induction Heating case elevating mechanism (2), and with intermediate frequency sense The bottom of heater box (3) is answered to connect, sliding platform (6) is set with corresponding to the left slide of the Frequency Induction Heating case (3) Left end in the frame (1), chuck rotary motion mechanism (5) is arranged on sliding platform (6) and in company with sliding platform (6) Left and right displacement and displacement, sliding platform left and right displacement controlling organization (7) correspond to be arranged on below sliding platform (6) it is described It is driven in frame (1) and with side of the sliding platform (6) under and coordinates, drift clamps chuck (8) and the coil (31) Left end it is corresponding and fixed with the chuck rotary motion mechanism (5).

2. drift intermediate frequency induction heating device according to claim 1, it is characterised in that described Frequency Induction Heating case Elevating mechanism (2) includes crane leader casing (21), crane guide rod (22), crane (23), crane hoisting cross beam (24) With scissor lift top (25), the rectangular fiame-like construction of crane (23), crane leader casing (21) has four and divided Not Dui Yingyu the position in four corners of crane (23) be fixed on the right-hand member of the frame (1), crane guide rod (22) is same Four corners for having the side of the upper end of four and four crane guide rods (22) respectively with crane (23) under are consolidated It is fixed, and sliding pair is formed in the lower end of crane guide rod (22) insertion crane leader casing (21) with crane leader casing (21), Crane hoisting cross beam (24) is fixed on the bottom of crane (23), and scissor lift top (25) are fixed on the right-hand member of frame (1) The middle part of side on base support beam (11) and with crane hoisting cross beam (24) under is corresponding；Described intermediate frequency sense Heater box (3) is answered to be slidably matched with described crane (23)；Described Frequency Induction Heating case moves forward and backward mechanism (4) carrying On described crane (23).

3. drift intermediate frequency induction heating device according to claim 2, it is characterised in that described scissor lift top (25) Including top (251), first, second, third, fourth support arm (252,253,254,255), base (256), support arm screw rod Axle (257) and support arm screw shaft hand wheel (258), top (251) is with the crane hoisting cross beam (24) under The middle part of side is corresponding, and the first support arm (252) and the second support arm (253) are towards the one of support arm screw shaft (257) End is jointly hinged in left hinge block (259a), and the left hinge block (259a) and the left end shape of support arm screw shaft (257) Into screw thread pair, the first support arm (252) is hinged towards the left end of one end and top (251) of top (251), the second support arm (253) it is hinged towards one end of base (256) and the left end of base (256), the 3rd support arm (254) and the 4th support arm (255) one end is jointly hinged in right hinge block (259b), and the right hinge block (259b) and support arm screw shaft (257) Left end formation screw thread pair, the 3rd support arm (254) is hinged towards the right-hand member of one end and top (251) of top (251), the 4th Support arm (255) is hinged towards one end of base (256) and the right-hand member of base (256), and base (256) is fixed on the frame (1) on the base support beam (11) of rear end, the right-hand member of support arm screw shaft (257) is rotatably supported at support arm screw rod On axle bed (2571) and the right side of support arm screw rod axle bed (2571) is stretched over, and the support arm screw rod axle bed (2571) is fixed In frame (1), support arm screw shaft hand wheel (258) is fixed on the right-hand member of support arm screw shaft (257).

4. drift intermediate frequency induction heating device according to claim 2, it is characterised in that corresponding to the Medium frequency induction The bottom of heater box (3) is provided with a Frequency Induction Heating case travelling carriage (32), in the Frequency Induction Heating case travelling carriage (32) Left bottom and bottom right side be respectively fixed with a travelling carriage guide rail (321), travelling carriage guide rail (321) with being arranged in pairs Guide rail slide block (3211) is slidably matched, and the guide rail slide block (3211) is fixed on described crane (23), and Medium frequency induction adds Hot tank (3) is fixed on the top of described Frequency Induction Heating case travelling carriage (32), in the Frequency Induction Heating case travelling carriage (32) a travelling carriage middle cross beam is fixed with and in the position that mechanism (4) is moved forward and backward corresponding to the Frequency Induction Heating case (322), Frequency Induction Heating case moves forward and backward mechanism (4) and is connected with the travelling carriage middle cross beam (322).

5. drift intermediate frequency induction heating device according to claim 4, it is characterised in that described Frequency Induction Heating case Moving forward and backward mechanism (4) includes moving forward and backward screw shaft (41), moves forward and backward screw shaft driving handwheel (42), moves forward and backward nut (43) screw shaft (41) front-end and back-end, are moved forward and backward respectively to be rotatably supported at by moving forward and backward screw shaft fulcrum bearing (411) On the crane (23), move forward and backward handwheel (42) and be fixed on the front end that anteroposterior position claims screw shaft (41), move forward and backward nut (43) it is disposed in and moves forward and backward on screw shaft (41) and by moving forward and backward in nut attachment screw (431) and the travelling carriage Crossbeam (322) is fixedly connected.

6. drift intermediate frequency induction heating device according to claim 1, it is characterised in that described chuck revolution driving machine Structure (5) includes driving box case cover (51), chuck drive motor (52), chuck drive reduction box (53), driving wheel (54a), chuck Drive shaft (55), driven pulley (54b), transmission belt (56), chuck driveshaft left bracket (57), chuck driveshaft right axle seat (58) and Chuck fixed seat (59), driving box case cover (51) is fixed on described sliding platform (6) towards upper side, chuck drive motor (52) it is driven and coordinates and by chuck drive reduction box (53) together with chuck drive motor (52) with chuck drive reduction box (53) The front side of the sliding platform (6) is fixed in the driving box case cover chamber (511) of driving box case cover (51), driving wheel (54) is solid It is scheduled on the reduction gearbox output shaft of chuck drive reduction box (53) (531), chuck driveshaft left bracket (57) and chuck drive Axle right axle seat (58) left and right correspondence and the rear side that sliding platform (6) are fixed in driving box case cover chamber (511), chuck drive The left end of axle (55) is rotatably supported on chuck driveshaft left bracket (57), and the right-hand member of chuck driveshaft (55) rotates twelve Earthly Branches Hold on chuck driveshaft right axle seat (58), and be stretched over driving box case cover chamber (511) outside, driven pulley (54b) corresponding to Position between the left and right axle bed of chuck driveshaft (57,58) is fixed in chuck driveshaft (55), one end set of transmission belt (56) Put on driven pulley (54b), the other end is nested with driving wheel (54a), chuck fixed seat (59) is fixed on chuck driveshaft (55) right-hand member, it is fixed with chuck fixed seat (59) that described drift clamps chuck (8).

7. drift intermediate frequency induction heating device according to claim 6, it is characterised in that described driving wheel (54a) and Driven pulley (54b) is sprocket wheel or belt pulley, and described transmission belt (56) is chain or driving belt.

8. drift intermediate frequency induction heating device according to claim 6, it is characterised in that in the driving box case cover (51) Right side and one case cover resigning chamber (512), chuck are offered in the position of the right-hand member corresponding to the chuck driveshaft (55) The right-hand member of drive shaft (55) is stretched over the driving box case cover chamber (511) outside by way of the case cover resigning chamber (512).

9. drift intermediate frequency induction heating device according to claim 1, it is characterised in that before the left end of the frame (1) Side and upper back are respectively fixed with a sliding platform guide rail (12) by guide rail cushion block (121), and in the front side of the platform (6) Pair of sliding platform sliding block (61) is respectively fixed with rear side and in the position corresponding to sliding platform guide rail (12), this pair is slided Platform sliding block (61) is slidably matched with sliding platform guide rail (12), when the manipulation sliding platform left and right displacement controlling organization (7) When, the sliding platform (6) is slided to the left or to the right on the platform rail (12).

10. the drift intermediate frequency induction heating device according to claim 1 or 9, it is characterised in that described sliding platform is left Right Bit andits control mechanism (7) includes gear shaft (71), gear (72), rack (73) and handwheel (74), the rear end of gear shaft (71) Be rotatably supported on rear bearing block (711), and the front end of gear shaft (71) is rotatably supported on front-end bearing pedestal (712) and Be stretched over the front side of front-end bearing pedestal (712), rear bearing block (711) and front-end bearing pedestal (712) correspond to each other and with the machine Frame (1) is fixed, and rack (73) is fixed on the middle part of side of the sliding platform (6) under, and gear (72) is corresponding to tooth The position of bar (73) is fixed on gear shaft (71) and is meshed with rack (73), and handwheel (74) is fixed on gear shaft (71) Front end.