CN218238358U - Intermediate frequency induction heating furnace for heating binding rods - Google Patents

Abstract

The utility model belongs to the technical field of the ligature pole production, especially, heating ligature pole's intermediate frequency induction heating furnace, to current intermediate frequency induction coil rigidity, the clastic problem of unable direct discharge now proposes following scheme, and it includes furnace body and induction coil, the top bolt of furnace body has the link, the inside of link articulates there is the transfer line, the bottom of transfer line articulates there is the hinge bar, the top of transfer line articulates there is the connecting rod, the left end of connecting rod articulates there is the rack, lets the induction coil can move the charge door of furnace body both sides through the removal of induction coil, inserts the back at the ligature pole, lets the one end of ligature pole take in pressing from both sides the material mouth, and at this moment the induction coil just can heat near this one end of ligature pole, and this one end of ligature pole need not unsettled, can produce gliding power way left to the piece through the up-and-down vibration of swash plate moreover, lets the piece that falls into the swash plate slide left to finally discharge.

Description

Intermediate frequency induction heating furnace for heating binding rods

Technical Field

The utility model relates to a ligature pole production technical field especially relates to a medium frequency induction heating furnace of heating ligature pole.

Background

Need heat it in the ligature pole course of working, the heating method commonly used at present uses intermediate frequency induction heating furnace, intermediate frequency induction heating furnace mainly by shell and the inside intermediate frequency induction coil of shell, but its inside intermediate frequency induction coil rigidity of present intermediate frequency induction heating furnace, fix the middle part at the shell mostly, all need move the middle part of the position of waiting to heat of ligature pole to the heating furnace when heating the ligature pole at every turn, when near regional needs heat the certain one end of ligature pole, this one end of ligature pole just needs unsettled inside at the heating furnace, how much support does not exist, in this in-process ligature pole falls down easily and collides intermediate frequency induction coil, lead to the heating furnace to damage easily, and the piece that drops among the heating process can directly fall into the bottom of heating furnace, unable direct discharge, need shut down the clearance after having processed the ligature pole, therefore, the utility model provides an intermediate frequency induction heating furnace for solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems that the intermediate frequency induction coil is fixed in position and cannot directly discharge scraps in the prior art, and providing the intermediate frequency induction heating furnace for heating the binding rod.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a heating ligature pole's intermediate frequency induction heating furnace, includes furnace body and induction coil, the top bolt of furnace body has the link, the inside of link articulates there is the transfer line, the bottom of transfer line articulates there is the hinge bar, the top of transfer line articulates there is the connecting rod, the left end of connecting rod articulates there is the rack, the tooth meshing of rack bottom has the gear train, the tooth of gear train bottom runs through the hole at furnace body top and meshes there is the balladeur train, the surface of balladeur train and the rear side bolt of induction coil, the left side of the inside bottom of furnace body articulates there is the swash plate, the right-hand member bolt of swash plate has wire rope, the right-hand member of hinge bar articulates there is adjustment mechanism, adjustment mechanism and wire rope rotate to cup joint, let the induction coil can remove the charge door to the furnace body both sides through the removal of induction coil, after the ligature pole inserts, let the one end of ligature pole take in the material clamping mouth, at this moment induction coil just can heat near this one end of ligature pole, this one end of ligature pole need not unsettled, can produce the gliding power way to the piece left through the upper and say to the upper and the piece of swash plate to the final both sides of sliding is all seted up with the induction coil of induction coil left.

Preferably, adjustment mechanism includes worm, worm wheel, half-gear and mouth type ring gear, the right-hand member of worm rotates with the hole on link right side and cup joints, the left end of worm meshes with the bottom of worm wheel, the rear side of worm wheel and the surperficial bolt of half-gear, the axle center department of half-gear is connected with the inside rotation of link, the tooth at half-gear top meshes with the tooth on the inside top of mouth type ring gear, the inside sliding connection of the bottom of mouth type ring gear and the top of furnace body and lieing in the link, the left side of mouth type ring gear is articulated with the right-hand member of hinge bar.

Furthermore, the right end of the worm is bolted with a hand wheel, the worm can be rotated through the hand wheel, the worm is connected with the connecting frame through a bearing in a rotating and sleeving manner, the worm can be rotated stably, the worm can drive the worm wheel to rotate, the worm wheel can drive the half gear to rotate, the half gear can drive the mouth-shaped gear ring to move, the mouth-shaped gear ring is arranged in a sliding manner through the sliding rail and the furnace body, the mouth-shaped gear ring can be stably moved left and right, and the mouth-shaped gear ring can drive the hinge rod to move.

Preferably, the surface of the worm is bolted with an eccentric wheel, the surface of the eccentric wheel is rotatably sleeved with a bearing ring, and the top end of the steel wire rope penetrates through a hole in the top of the furnace body and is bolted with the bearing ring of the eccentric wheel.

Further, the worm can drive the eccentric wheel to rotate, the eccentric wheel is in an up-and-down moving state in the rotating process, the top end of the steel wire rope is connected with a bearing ring of the eccentric wheel, the steel wire rope is rotatably sleeved with the eccentric wheel through the bearing ring, and the eccentric wheel can drive the steel wire rope to move up and down.

Preferably, both ends of the rear side of the rack are slidably connected with a sliding frame, and the rear side of the sliding frame is bolted with the inner part of the connecting frame.

Furthermore, the rack is arranged in a sliding mode through the sliding rail and the sliding frame, the rack can move left and right stably, the sliding frame is located on two sides of the gear set, and effective limiting is conveniently carried out on the rack.

Preferably, the gear set comprises a pinion on the front side and a gearwheel on the rear side of the pinion, teeth on the top of the pinion are meshed with teeth on the bottom of the rack, and the axis of the gear set is rotatably connected with the inside of the connecting frame.

Furthermore, the pinion structure of gear train makes things convenient for the rack to drive the pinion of gear train and rotates, and the tooth of gear wheel bottom runs through the opening at furnace body top and with the tooth meshing at balladeur train top, makes things convenient for the gear wheel to drive the balladeur train and removes, and the gear train passes through the bearing and rotates the setting with the connection frame, lets the gear train can rotate steadily.

Preferably, a slide rod is connected to the slide hole in the top of the sliding frame in a sliding manner, and two ends of the slide rod are bolted to the inside of the furnace body.

Furthermore, the sliding frame is arranged in a sliding mode through the sliding rail and the sliding rod, the sliding frame can move left and right stably, the sliding frame can be meshed with the gear set all the time, and the gear set can drive the sliding frame to move conveniently.

Has the advantages that:

1. the adjusting mechanism can drive the transmission rod to rotate through the hinged rod, the transmission rod can drive the rack to move through the connecting rod, the rack can drive the sliding frame to move through the gear set, the sliding frame can drive the induction coil to move, and the induction coil can move to the positions near the material clamping openings at the two sides of the furnace body, so that the position near one end of the binding rod can be conveniently heated;

2. the adjusting mechanism can drive the inclined plate to vibrate up and down through the steel wire rope, and the scraps falling on the inclined plate can be vibrated to enter the impurity discharging port on the left side of the furnace body by utilizing the up-and-down vibration of the inclined plate;

the utility model discloses in: let the induction coil can remove the charge door of furnace body both sides through the removal of induction coil, insert the back at the ligature pole, let the one end of ligature pole take in pressing from both sides the material mouth, at this moment the induction coil just can heat near this one end of ligature pole, this one end of ligature pole need not unsettledly, and the up-and-down vibration through the swash plate can produce gliding power way left to the piece moreover, lets the piece that falls into the swash plate slide left to final discharge.

Drawings

FIG. 1 is a schematic view of a front view structure of a medium frequency induction heating furnace for heating lashing bars according to the present invention;

FIG. 2 is a schematic structural view of an adjusting mechanism of a medium frequency induction heating furnace for heating lashing bars according to the present invention;

FIG. 3 is a schematic view of a rear view of a mouth-shaped gear ring of the intermediate frequency induction heating furnace for heating the lashing rods according to the present invention;

fig. 4 is a three-dimensional schematic view of a mouth-shaped gear ring of the intermediate frequency induction heating furnace for heating the binding rod provided by the utility model.

In the figure: 1. a furnace body; 2. an adjustment mechanism; 21. a worm; 22. a worm gear; 23. a half gear; 24. a die gear ring; 25. an eccentric wheel; 3. an induction coil; 4. a connecting frame; 5. a hinged lever; 6. a transmission rod; 7. a connecting rod; 8. a rack; 9. a gear set; 10. a carriage; 11. a sloping plate; 12. a steel cord.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1-4, an intermediate frequency induction heating furnace for heating binding rods comprises a furnace body 1 and an induction coil 3, the top of the furnace body 1 is bolted with a connecting frame 4, the inside of the connecting frame 4 is hinged with a transmission rod 6, the bottom of the transmission rod 6 is hinged with a hinge rod 5, the top of the transmission rod 6 is hinged with a connecting rod 7, the left end of the connecting rod 7 is hinged with a rack 8, teeth at the bottom of the rack 8 are meshed with a gear set 9, teeth at the bottom of the gear set 9 penetrate through a hole at the top of the furnace body 1 and are meshed with a carriage 10, the surface of the carriage 10 is bolted with the rear side of the induction coil 3, the left side of the inside bottom of the furnace body 1 is hinged with an inclined plate 11, the right end of the inclined plate 11 is bolted with a steel wire 12, the right end of the hinge rod 5 is hinged with an adjusting mechanism 2, the adjusting mechanism 2 is rotatably sleeved with the steel wire 12, the adjusting mechanism 2 is rotatably sleeved with the connecting frame 4, the induction coil 3 is an induction coil, the two sides of the furnace body 1 are provided with material clamping ports corresponding to the induction coil 3, the hole at the left side of the bottom of the furnace body 1 is communicated with a sundry discharging pipe, when the vicinity of the left end of the binding rod needs to be heated, the binding rod is inserted into the material clamping ports at the two sides of the furnace body 1, the left end of the binding rod is moved rightwards until the left end of the binding rod is close to the material clamping port at the left side of the furnace body 1, a to-be-heated area of the binding rod is positioned inside the furnace body 1, the adjusting mechanism 2 can drive the hinge rod 5 to move, the hinge rod 5 can drive the transmission rod 6 to rotate, the transmission rod 6 can drive the connecting rod 7 to move, the connecting rod 7 can drive the rack 8 to move, the rack 8 can drive the gear set 9 to rotate, the gear set 9 can drive the sliding frame 10 to move, the sliding frame 10 can drive the induction coil 3 to move until the induction coil 3 moves to the vicinity of the to-be-heated area of the binding rod, the induction coil 3 can generate a large amount of scraps in the heating process of the binding rod, these pieces fall into the swash plate 11 of bottom, adjustment mechanism 2 can drive wire rope 12 and reciprocate, wire rope 12 can drive swash plate 11 vibration from top to bottom, drive the piece left, and through the leading-in left row of the furnace body of vibration miscellaneous mouthful 1, let induction coil 3 can move the charge door of furnace body 1 both sides through induction coil 3's removal, insert the back at the ligature pole, let the one end of ligature pole take in pressing from both sides the material mouthful, at this moment induction coil 3 just can heat near this one end of ligature pole, this one end of ligature pole need not unsettledly, and can produce gliding power way left to the piece through swash plate 11 vibration from top to bottom, let the piece that falls into swash plate 11 slide left, and finally discharge.

The utility model discloses in, adjustment mechanism 2 includes worm 21, worm wheel 22, semi-gear 23 and type of lip gear 24, the right-hand member of worm 21 and the hole rotation on linking frame 4 right side cup joint, the left end of worm 21 and the bottom meshing of worm wheel 22, the rear side of worm wheel 22 and semi-gear 23's surface bolt, semi-gear 23's axle center department is connected with linking frame 4's inside rotation, the tooth at semi-gear 23 top and the tooth meshing on the inside top of type of lip gear 24, the bottom of type of lip gear 24 and furnace body 1's top and lie in linking frame 4's inside sliding connection, the left side of type of lip gear 24 is articulated with hinge bar 5's right-hand member, worm 21's right-hand member bolt has the hand wheel, can rotate worm 21 through the hand wheel, worm 21 rotates with linking frame 4 through the bearing, let worm 21 can rotate steadily, worm 21 can drive worm wheel 22 and rotate, worm wheel 22 can drive semi-gear 23 and rotate, semi-gear 23 can drive type of lip gear 24 and remove, type of lip gear 24 passes through type of lip gear 24 and slide 1 and set up, let type of lip gear 24 can steadily, remove about slide rail 5.

The utility model discloses in, eccentric wheel 25 has been bolted on worm 21's surface, eccentric wheel 25's surface is rotated and has been cup jointed the race ring, wire rope 12's top run through the hole at 1 top of furnace body and with eccentric wheel 25's race ring bolt, worm 21 can drive eccentric wheel 25 and rotate, eccentric wheel 25 rotates its whole state that reciprocates that is of in-process, wire rope 12's top is connected with eccentric wheel 25's race ring, wire rope 12 rotates with eccentric wheel 25 through the race ring and cup joints, eccentric wheel 25 can drive wire rope 12 and reciprocate.

The utility model discloses in, the equal sliding connection in both ends of rack 8 rear side has sliding frame, sliding frame's rear side and connection frame 4's inside bolt, and rack 8 passes through the slide rail and slides the setting with sliding frame, lets rack 8 can be steady about removing, and sliding frame is located the both sides of gear train 9, and the convenience carries out effectual spacing to rack 8.

The utility model discloses in, gear train 9 includes the pinion of front side and the gear wheel of pinion rear side, the tooth at pinion top and the tooth meshing of rack 8 bottom, the axle center department of gear train 9 is connected with the inside rotation of connection frame 4, the pinion structure of gear train 9 makes things convenient for rack 8 to drive the pinion of gear train 9 to rotate, the tooth of gear wheel bottom run through the opening at 1 top of furnace body and with the tooth meshing at balladeur train 10 top, make things convenient for the gear wheel to drive balladeur train 10 and remove, gear train 9 passes through the bearing and rotates the setting with connection frame 4, let gear train 9 can rotate steadily.

The utility model discloses in, the slide opening sliding connection at balladeur train 10 top has the slide bar, the both ends of slide bar all with furnace body 1's inside bolt, balladeur train 10 passes through the slide rail and slides with the slide bar and sets up, let balladeur train 10 can be steady about removing, let balladeur train 10 can be all the time with the meshing of gear train 9, make things convenient for gear train 9 to drive balladeur train 10 and remove.

Example two

This example differs from example 1 in that: replace gear train 9 for single fluted disc, the bottom of rack 8 meshes with the top of fluted disc, lets rack 8 can drive the fluted disc and rotate, but this kind of structure rack 8 removes a big pick dish and just can rotate corresponding length, therefore, this application is preferred gear train 9.

The working principle is as follows: when the vicinity of the left end of the binding rod needs to be heated, the binding rod is inserted into the material clamping openings at the two sides of the furnace body 1, the left end of the binding rod is moved rightwards until the left end of the binding rod is close to the material clamping opening at the left side of the furnace body 1, a to-be-heated area of the binding rod is positioned in the furnace body 1, the worm 21 is rotated, the worm 21 can drive the worm wheel 22 to rotate anticlockwise, the worm wheel 22 can drive the half gear 23 to rotate anticlockwise, the half gear 23 can drive the mouth-shaped gear ring 24 to move leftwards, the mouth-shaped gear ring 24 can drive the hinge rod 5 to move leftwards, the hinge rod 5 can drive the transmission rod 6 to rotate clockwise, the transmission rod 6 can drive the connecting rod 7 to move rightwards, the connecting rod 7 can drive the rack 8 to move rightwards, rack 8 can drive gear train 9 clockwise turning, gear train 9 can drive balladeur train 10 and remove left, balladeur train 10 can drive induction coil 3 and remove left, it treats near the heating region to remove to the ligature pole until induction coil 3, induction coil 3 can produce a large amount of pieces to the ligature pole heating process, these pieces fall into the swash plate 11 of bottom, worm 21 can drive eccentric wheel 25 and rotate, eccentric wheel 25 rotates its whole up-and-down moving state that is of in-process, eccentric wheel 25 can drive wire rope 12 and reciprocate, wire rope 12 can drive swash plate 11 and vibrate from top to bottom, drive the piece left, and through the leading-in left row of vibration miscellaneous mouth of furnace body 1.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides a heating ligature pole's intermediate frequency induction heating furnace, includes furnace body (1) and induction coil (3), its characterized in that, the top of furnace body (1) is bolted and is connected linking frame (4), the inside of linking frame (4) articulates there is transfer line (6), the bottom of transfer line (6) articulates there is hinge rod (5), the top of transfer line (6) articulates there is connecting rod (7), the left end of connecting rod (7) articulates there is rack (8), the tooth meshing of rack (8) bottom has gear train (9), the tooth of gear train (9) bottom runs through the hole and the meshing at furnace body (1) top have balladeur train (10), the surface of balladeur train (10) and the rear side bolt of induction coil (3), the left side of furnace body (1) inside bottom articulates there is swash plate (11), the right-hand member bolt of swash plate (11) has wire rope (12), the right-hand member of hinge rod (5) articulates there is adjustment mechanism (2), adjustment mechanism (2) rotate with wire rope (12) and cup joint.

2. The medium-frequency induction heating furnace for heating the lashing rods according to claim 1, wherein the adjusting mechanism (2) comprises a worm (21), a worm wheel (22), a half gear (23) and a mouth-shaped gear ring (24), the right end of the worm (21) is rotatably sleeved with a hole on the right side of the connecting frame (4), the left end of the worm (21) is meshed with the bottom of the worm wheel (22), the rear side of the worm wheel (22) is bolted with the surface of the half gear (23), the axis of the half gear (23) is rotatably connected with the inside of the connecting frame (4), teeth on the top of the half gear (23) are meshed with teeth on the top end of the inside of the mouth-shaped gear ring (24), the bottom of the mouth-shaped gear ring (24) is connected with the top of the furnace body (1) in a sliding manner and is positioned inside the connecting frame (4), and the left side of the mouth-shaped gear ring (24) is hinged with the right end of the hinging rod (5).

3. The medium frequency induction heating furnace for heating lashing bars according to claim 2, wherein an eccentric wheel (25) is bolted to the surface of the worm (21), a bearing ring is rotatably sleeved on the surface of the eccentric wheel (25), and the top end of the steel wire rope (12) penetrates through a hole in the top of the furnace body (1) and is bolted to the bearing ring of the eccentric wheel (25).

4. The medium frequency induction heating furnace for heating lashing bars according to claim 1, wherein both ends of the rear side of the rack (8) are slidably connected with a sliding frame, and the rear side of the sliding frame is bolted to the inside of the connecting frame (4).

5. The medium frequency induction heating furnace for heating lashing bars according to claim 1, wherein the gear set (9) comprises a pinion on the front side and a gearwheel on the rear side of the pinion, teeth on the top of the pinion are engaged with teeth on the bottom of the rack (8), and the axis of the gear set (9) is rotatably connected with the inside of the connecting frame (4).

6. The medium frequency induction heating furnace for heating lashing bars according to claim 1, wherein a slide bar is slidably connected to a slide hole at the top of the carriage (10), and both ends of the slide bar are bolted to the inside of the furnace body (1).

Images