CN215440550U - Induction hardening heating assembly - Google Patents

Abstract

The utility model discloses an induction quenching heating assembly which comprises a base, a first sliding seat, a second sliding seat, a fixing frame and a quenching inductor, wherein the first sliding seat can be arranged on the base in a sliding manner along a Y axis, the second sliding seat can be arranged on the first sliding seat in a sliding manner along an X axis, the fixing frame is fixedly arranged on the second sliding seat and used for installing and protecting power supply equipment, the quenching inductor is arranged on the fixing frame and used for heating a workpiece, the quenching inductor is fixedly connected with the fixing frame through a hoisting frame, the hoisting frame comprises a sliding plate fixedly connected with the fixing frame, a first sliding sleeve slidably arranged on the sliding plate, a second sliding sleeve slidably arranged on the sliding plate, a first fixing rod vertically fixedly connected with the first sliding sleeve and extending out of the fixing frame, a second fixing rod vertically fixedly connected with the second sliding sleeve and extending out of the fixing frame, a first jacket and a second jacket slidably arranged on the first fixing rod, a second jacket and a second jacket are arranged on the first fixing rod, A third clamping sleeve and a fourth clamping sleeve which are slidably arranged on the second fixing rod.

Description

Induction hardening heating assembly

Technical Field

The utility model relates to the field of induction quenching, in particular to an induction quenching heating assembly.

Background

When induction quenching is carried out, most quenching inductors arranged on a machine tool are fixedly arranged, when the quenching position of a workpiece needs to be adjusted, the position of the workpiece can only be adjusted, but the position of the quenching inductor cannot be adjusted, so that the position matching efficiency of the workpiece and the quenching inductor is low, and the position matching is not accurate enough.

SUMMERY OF THE UTILITY MODEL

The present invention addresses the above-identified deficiencies of the prior art by providing an induction hardening heating assembly.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an induction quenching heating assembly is constructed, the heating assembly comprises a base, a first sliding seat which can be arranged on the base in a sliding manner along a Y axis, a second sliding seat which can be arranged on the first sliding seat in a sliding manner along an X axis, a fixed frame which is fixedly arranged on the second sliding seat and is used for installing and protecting power supply equipment, and a quenching inductor which is arranged on the fixed frame and is used for heating a workpiece, wherein the quenching inductor is fixedly connected with the fixed frame through a hoisting frame, the hoisting frame comprises a sliding plate which is fixedly connected with the fixed frame, a first sliding sleeve which can be arranged on the sliding plate in a sliding manner, a second sliding sleeve which can be arranged on the sliding plate in a sliding manner, a first fixing rod which is vertically and fixedly connected with the first sliding sleeve and extends out of the fixed frame, a second fixing rod which is vertically and fixedly connected with the second sliding sleeve and extends out of the fixed frame, a first clamping sleeve and a second clamping sleeve which can be arranged on the first fixing rod in a sliding manner, The third clamping sleeve and the fourth clamping sleeve are slidably arranged on the second fixing rod, the first suspender is fixedly connected with the first clamping sleeve and the quenching inductor, the second suspender is fixedly connected with the second clamping sleeve and the quenching inductor, the third suspender is fixedly connected with the third clamping sleeve and the quenching inductor, and the fourth suspender is fixedly connected with the fourth clamping sleeve and the quenching inductor.

In the induction quenching heating assembly of the utility model, the heating assembly further comprises a first Y-axis guide rail fixedly arranged on the first side of the top surface of the base, a second Y-axis guide rail fixedly arranged on the second side of the top surface of the base and parallel to the first Y-axis guide rail, a first sliding block slidably arranged on the first Y-axis guide rail and fixedly arranged on the first side of the bottom surface of the first sliding seat, a second sliding block slidably arranged on the second Y-axis guide rail and fixedly arranged on the second side of the bottom surface of the first sliding seat, and a first driving mechanism driving the first sliding block and the second sliding block to respectively slide along the first Y-axis guide rail and the second Y-axis guide rail.

In the induction quenching heating assembly, the first driving mechanism comprises a first servo motor fixedly arranged on the first side of the base, a first screw rod fixedly connected with an output shaft of the first servo motor, and a first screw sleeve sleeved on the first screw rod and screwed with the first screw rod, the first screw sleeve is fixedly arranged in the middle of the bottom surface of the first sliding seat, and the first screw rod is arranged in parallel with the first Y-axis guide rail and the second Y-axis guide rail.

In the induction quenching heating assembly of the utility model, the heating assembly further comprises a first X-axis guide rail fixedly arranged at the first end of the top surface of the first sliding seat, a second X-axis guide rail fixedly arranged at the second end of the top surface of the first sliding seat and parallel to the first X-axis guide rail, a third sliding block slidably arranged on the first X-axis guide rail and fixedly arranged at the first end of the bottom surface of the second sliding seat, a fourth sliding block slidably arranged on the second X-axis guide rail and fixedly arranged at the second end of the bottom surface of the second sliding seat, and a second driving mechanism for driving the third sliding block and the fourth sliding block to respectively slide along the first X-axis guide rail and the second X-axis guide rail.

In the induction quenching heating assembly, the second driving mechanism comprises a second servo motor fixedly arranged on the second side of the base, a second screw rod fixedly connected with an output shaft of the second servo motor, and a second screw sleeve sleeved on the second screw rod and in threaded connection with the second screw rod, the second screw sleeve is fixedly arranged in the middle of the bottom surface of the second sliding seat, and the second screw rod is arranged in parallel with the first X-axis guide rail and the second X-axis guide rail.

In the induction quenching heating assembly, the first sliding sleeve is provided with a first sliding hole through which the sliding plate can slide, the first sliding sleeve is provided with a first screw hole which passes through the first sliding sleeve and can be communicated with the first sliding hole, and the first screw hole is internally provided with a first locking bolt which is in threaded connection with the first screw hole and can be inserted into the first sliding hole to abut against the sliding plate;

the second sliding sleeve is provided with a second sliding hole through which the sliding plate can slide, the second sliding sleeve is provided with a second screw hole which penetrates through the second sliding sleeve and can be communicated with the second sliding hole, and a second locking bolt which is in threaded connection with the second screw hole and can be inserted into the second sliding hole to abut against the sliding plate is arranged in the second screw hole.

In the induction quenching heating assembly, a first connecting cap is fixedly arranged at a first end of a first fixing rod, the first connecting cap comprises a first fixing disc and a first sleeve fixedly arranged in the middle of the first fixing disc, the first end of the first fixing rod is fixedly inserted into the first sleeve, and a plurality of first fixing holes fixedly connected with a first sliding sleeve are formed in the first fixing disc;

the first end of the second fixed rod is fixedly provided with a second connecting cap, the second connecting cap comprises a second fixed disc and a second sleeve fixedly arranged in the middle of the second fixed disc, the first end of the second fixed rod is fixedly inserted into the second sleeve, and the second fixed disc is provided with a plurality of second fixed holes fixedly connected with a second sliding sleeve.

In the induction quenching heating assembly, the first clamping sleeve and the second clamping sleeve respectively comprise a first clamping plate and a second clamping plate, the first end of the first clamping plate is rotatably connected with the first end of the second clamping plate, the second end of the first clamping plate is connected with the second end of the second clamping plate through a third locking bolt in a locking manner, and a first clamping hole for a first fixing rod to pass through is formed in the middle of the first clamping plate and the middle of the second clamping plate;

this third presss from both sides cover and fourth clamp cover all includes third splint and fourth splint, and this third splint first end and this fourth splint first end rotatable coupling, this third splint second end and fourth splint second end pass through fourth lock bolt lock connection, and this third splint middle part and fourth splint middle part are equipped with the second centre gripping hole that can supply the second dead lever to pass.

In the induction quenching heating assembly, the top end of the first suspender is fixedly connected with the first jacket, and the bottom end of the first suspender is provided with a first external thread for connecting with the quenching inductor;

the top end of the second suspender is fixedly connected with the second jacket, and the bottom end of the second suspender is provided with a second external thread used for connecting with the quenching inductor;

the top end of the third suspender is fixedly connected with the third jacket, and the bottom end of the third suspender is provided with a third external thread used for connecting with the quenching inductor;

the top end of the fourth suspender is fixedly connected with the fourth jacket, and the bottom end of the fourth suspender is provided with a fourth external thread used for being connected with the quenching inductor.

In the induction hardening heating assembly according to the present invention, the power supply device includes a capacitor and a transformer which are fixedly mounted on the fixing frame and electrically connected to the hardening inductor.

The induction quenching heating assembly has the following beneficial effects: when the induction quenching heating assembly is used, a quenching inductor can be hung on a fixed frame through a hanging frame, the positions of a first fixed rod and a second fixed rod are adjusted by adjusting the positions of a first sliding sleeve and a second sliding sleeve on a sliding plate, a first suspender and a second suspender are aligned to a connecting piece or a connecting hole on the quenching inductor by adjusting the positions of a first jacket and a second jacket on the first fixed rod, and the quenching inductor can be fixedly connected to the bottom ends of the first suspender, the second suspender, the third suspender and the fourth suspender by adjusting the positions of a third jacket and a fourth jacket on the second fixed rod to align the third suspender and the fourth suspender to the connecting piece or the connecting hole on the quenching inductor. When the position of the quenching inductor needs to be moved, the position of the quenching inductor on the X axis and the Y axis can be driven to move through the fixing frame by only sliding the first sliding seat along the Y axis or sliding the second sliding seat along the X axis, so that the position of the quenching inductor can be conveniently adjusted.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic structural view of an induction hardening heating assembly of the present invention;

FIG. 2 is a schematic structural view of a base in the induction hardening heating assembly of the present invention;

FIG. 3 is a schematic view of a first cross-sectional configuration of the induction hardening heating assembly base of the present invention;

FIG. 4 is a schematic diagram of a second cross-sectional configuration of the induction hardening heating assembly base of the present invention;

fig. 5 is a schematic structural view of a first jacket in the induction hardening heating assembly according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, in the first embodiment of the induction quenching heating assembly of the present invention, the heating assembly 10 includes a base 11, a first sliding seat 12 slidably disposed on the base 11 along an axis Y, a second sliding seat 13 slidably disposed on the first sliding seat 12 along an axis X, a fixing frame 14 fixedly disposed on the second sliding seat 13 and used for installing and protecting a power supply device, and a quenching sensor 15 disposed on the fixing frame 14 and used for heating a workpiece, wherein the quenching sensor 15 is fixedly connected to the fixing frame 14 through a hoisting frame 16, the hoisting frame 16 includes a sliding plate 17 fixedly connected to the fixing frame 14, a first sliding sleeve 18 slidably disposed on the sliding plate 17, a second sliding sleeve 19 slidably disposed on the sliding plate 17, a first fixing rod 20 vertically fixedly connected to the first sliding sleeve 18 and extending out of the fixing frame 14, a second fixing rod 21 vertically fixedly connected to the second sliding sleeve 19 and extending out of the fixing frame 14, a second fixing rod 21, a second sliding sleeve 19, and a third sliding sleeve 18 extending out of the fixing frame 14, A first jacket 22 and a second jacket 23 slidably provided on the first fixing rod 20, a third jacket 24 and a fourth jacket 25 slidably provided on the second fixing rod 21, a first boom 26 fixedly connecting the first jacket 22 and the quenching inductor 15, a second boom fixedly connecting the second jacket 23 and the quenching inductor 15, a third boom fixedly connecting the third jacket 24 and the quenching inductor 15, and a fourth boom fixedly connecting the fourth jacket 25 and the quenching inductor 15.

When the induction hardening heating assembly 10 of the present invention is used, the quenching inductor 15 can be hung on the fixed frame 14 by the hanging frame 16, the positions of the first sliding sleeve 18 and the second sliding sleeve 19 on the sliding plate 17 can be adjusted to adjust the positions of the first fixing rod 20 and the second fixing rod 21, the positions of the first jacket 22 and the second jacket 23 on the first fixing rod 20 can be adjusted to align the first suspender 26 and the second suspender with the connecting piece or the connecting hole on the quenching inductor 15, and the positions of the third jacket 24 and the fourth jacket 25 on the second fixing rod 21 can be adjusted to align the third suspender and the fourth suspender with the connecting piece or the connecting hole on the quenching inductor 15, so that the quenching inductor 15 can be fixedly connected to the bottom ends of the first suspender 26, the second suspender, the third suspender and the fourth suspender. When the position of the quenching inductor 15 needs to be moved, the first sliding seat 12 is only required to slide along the Y axis or the second sliding seat 13 is only required to slide along the X axis, so that the position of the quenching inductor 15 on the X axis and the Y axis can be driven to move through the fixed frame 14, and the effect of conveniently adjusting the position of the quenching inductor 15 is achieved.

As shown in fig. 2, 3 and 4, the heating assembly 10 further includes a first Y-axis guide 27 fixed on the first side of the top surface of the base 11, a second Y-axis guide 28 fixed on the second side of the top surface of the base 11 and parallel to the first Y-axis guide 27, a first slider 29 slidably disposed on the first Y-axis guide 27 and fixed on the first side of the bottom surface of the first sliding seat 12, a second slider 30 slidably disposed on the second Y-axis guide 28 and fixed on the second side of the bottom surface of the first sliding seat 12, and a first driving mechanism for driving the first slider 29 and the second slider 30 to slide along the first Y-axis guide 27 and the second Y-axis guide 28, respectively.

Specifically, the first driving mechanism includes a first servo motor 31 fixedly disposed on the first side of the base 11, a first lead screw 32 fixedly connected to an output shaft of the first servo motor 31, and a first threaded sleeve 33 sleeved on the first lead screw 32 and screwed with the first lead screw 32, the first threaded sleeve 33 is fixedly disposed in the middle of the bottom surface of the first sliding seat 12, and the first lead screw 32 is disposed in parallel with the first Y-axis guide rail 27 and the second Y-axis guide rail 28.

When the first sliding seat 12 needs to be driven to move along the Y axis, the first servo motor 31 is started to drive the first lead screw 32 to rotate, the first lead screw 32 rotates to push the first thread insert 33 to move along the Y axis, and at this time, the first slider 29 and the second slider 30 at the bottom of the first sliding seat 12 move on the first Y axis guide rail 27 and the second Y axis guide rail 28 respectively, so that the first sliding seat 12 is driven to move along the Y axis.

Similarly, the heating assembly 10 further includes a first X-axis guide rail 34 fixed to a first end of the top surface of the first sliding seat 12, a second X-axis guide rail 35 fixed to a second end of the top surface of the first sliding seat 12 and parallel to the first X-axis guide rail 34, a third slider 36 slidably disposed on the first X-axis guide rail 34 and fixed to a first end of the bottom surface of the second sliding seat 13, a fourth slider 37 slidably disposed on the second X-axis guide rail 35 and fixed to a second end of the bottom surface of the second sliding seat 13, and a second driving mechanism for driving the third slider 36 and the fourth slider 37 to slide along the first X-axis guide rail 34 and the second X-axis guide rail 35, respectively.

Specifically, the second driving mechanism includes a second servo motor 38 fixedly disposed on the second side of the base 11, a second lead screw 39 fixedly connected to an output shaft of the second servo motor 38, and a second threaded sleeve 40 sleeved on the second lead screw 39 and screwed with the second lead screw 39, the second threaded sleeve 40 is fixedly disposed in the middle of the bottom surface of the second sliding seat 13, and the second lead screw 39 is disposed in parallel with the first X-axis guide rail 34 and the second X-axis guide rail 35.

When the second sliding seat 13 needs to be driven to move along the X axis, the second servo motor 38 is started to drive the second lead screw 39 to rotate, the second lead screw 39 rotates to push the second thread insert 40 to move along the X axis, and at this time, the third slider 36 and the fourth slider 37 at the bottom of the second sliding seat 13 move on the first X axis guide rail 34 and the second X axis guide rail 35 respectively, so that the second sliding seat 13 is driven to move along the Y axis. It is understood that the first servo motor 31 and the second servo motor 38 can be operated simultaneously, and the fixed frame 14 and the quenching sensor 15 are driven to move along the X axis and the Y axis simultaneously by the first sliding seat 12 and the second sliding seat 13. It is also understood that, in the present embodiment, the X-axis direction and the Y-axis direction are perpendicular to each other.

As shown in fig. 1, the first sliding sleeve 18 is provided with a first sliding hole for the sliding plate 17 to slide through, the first sliding sleeve 18 is provided with a first screw hole passing through the first sliding sleeve 18 and communicating with the first sliding hole, and the first screw hole is provided with a first locking bolt 47 screwed with the first screw hole and capable of being inserted into the first sliding hole and abutting against the sliding plate 17.

The second sliding sleeve 19 is provided with a second sliding hole for the sliding plate 17 to slide through, the second sliding sleeve 19 is provided with a second screw hole which passes through the second sliding sleeve 19 and can be communicated with the second sliding hole, and a second locking bolt which is screwed with the second screw hole and can be inserted into the second sliding hole and abutted against the sliding plate 17 is arranged in the second screw hole.

When the positions of the first sliding sleeve 18 and the second sliding sleeve 19 need to be moved, the first locking bolt 47 and the second locking bolt can be rotated and loosened, so that the first locking bolt 47 and the second locking bolt are separated from the surface of the sliding plate 17, and at this time, the positions of the first sliding sleeve 18 and the second sliding sleeve 19 on the sliding plate 17 can be moved. And when first sliding sleeve 18 and second sliding sleeve 19 need to be fixed, first locking bolt 47 and second locking bolt can be rotated until first locking bolt 47 and second locking bolt are abutted against sliding plate 17, and first sliding sleeve 18 and second sliding sleeve 19 can be fixed on sliding plate 17.

Further, a first end of the first fixing rod 20 is fixedly provided with a first connecting cap, the first connecting cap includes a first fixing disk and a first sleeve fixedly disposed in the middle of the first fixing disk, the first end of the first fixing rod 20 is fixedly inserted into the first sleeve, and the first fixing disk is provided with a plurality of first fixing holes for fixedly connecting with the first sliding sleeve 18.

The first end of the second fixing rod 21 is fixedly provided with a second connecting cap 48, the second connecting cap 48 comprises a second fixing disc and a second sleeve fixedly arranged in the middle of the second fixing disc, the first end of the second fixing rod 21 is fixedly inserted into the second sleeve, and the second fixing disc is provided with a plurality of second fixing holes fixedly connected with the second sliding sleeve 19.

When the first fixing rod 20 is fixed, the first end of the first fixing rod 20 is inserted into the first sleeve for fixing, and then the first fixing plate is fixedly connected with the first sliding sleeve 18 through the first fixing hole. Similarly, when the second fixing rod 21 is fixed, the first end of the second fixing rod 21 is inserted into the second sleeve for fixing, and then the second fixing plate is fixedly connected with the second sliding sleeve 19 through the second fixing hole.

Further, as shown in fig. 5, each of the first clamping sleeve 22 and the second clamping sleeve 23 includes a first clamping plate 41 and a second clamping plate 42, a first end of the first clamping plate 41 is rotatably connected to a first end of the second clamping plate 42, a second end of the first clamping plate 41 is locked to a second end of the second clamping plate 42 by a third locking bolt 43, and a first clamping hole 44 is formed in a middle portion of the first clamping plate 41 and a middle portion of the second clamping plate 42 for the first fixing rod 20 to pass through.

The third clamping sleeve 24 and the fourth clamping sleeve 25 both comprise a third clamping plate and a fourth clamping plate, the first end of the third clamping plate is rotatably connected with the first end of the fourth clamping plate, the second end of the third clamping plate and the second end of the fourth clamping plate are connected through a fourth locking bolt in a locking manner, and a second clamping hole through which the second fixing rod 21 can pass is formed in the middle of the third clamping plate and the middle of the fourth clamping plate.

When it is necessary to move the first and second jackets 22 and 23, the third locking bolt 43 is rotated to release the third locking bolt 43, and then the positions of the first and second jackets 22 and 23 on the first fixing rod 20 are moved, and after the movement is completed, the third locking bolt 43 is rotated to lock the first and second jackets 22 and 23 on the first fixing rod 20. When it is necessary to move the third and fourth jackets 24 and 25, the fourth locking bolt is rotated to release the fourth locking bolt, and then the positions of the third and fourth jackets 24 and 25 on the second fixing rod 21 are moved, and after the movement is completed, the fourth locking bolt is rotated to lock the third and fourth jackets 24 and 25 on the second fixing rod 21.

Further, in order to facilitate the first, second, third and fourth suspension rods 26, 26 to be fixedly connected to the quenching inductor 15, the top end of the first suspension rod 26 is fixedly connected to the first jacket 22, and the bottom end of the first suspension rod 26 is provided with a first external thread for connecting to the quenching inductor 15. The top end of the second suspender is fixedly connected with the second jacket 23, and the bottom end of the second suspender is provided with a second external thread for connecting with the quenching inductor 15. The top end of the third suspender is fixedly connected with the third jacket 24, and the bottom end of the third suspender is provided with a third external thread for connecting with the quenching inductor 15. The top end of the fourth suspender is fixedly connected with the fourth jacket 25, and the bottom end of the fourth suspender is provided with a fourth external thread for connecting with the quenching inductor 15.

When the quenching inductor 15 is fixed, the first external thread at the bottom end of the first hanger rod 26 may be inserted into the quenching inductor 15 to be screwed, or may be screwed to the first external thread using a bolt. The second, third and fourth suspension bars are fixedly connected in the same manner as the first suspension bar 26, and will not be described herein again.

In the present embodiment, the power supply device includes a capacitor 45 and a transformer 46 fixed to the fixing frame 14 and electrically connected to the quenching inductor 15.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The induction quenching heating assembly is characterized in that the heating assembly (10) comprises a base (11), a first sliding seat (12) which can be arranged on the base (11) in a sliding mode along a Y axis, a second sliding seat (13) which can be arranged on the first sliding seat (12) in a sliding mode along an X axis, a fixing frame (14) which is fixedly arranged on the second sliding seat (13) and used for installing and protecting power supply equipment, and a quenching inductor (15) which is arranged on the fixing frame (14) and used for heating a workpiece, wherein the quenching inductor (15) is fixedly connected with the fixing frame (14) through a hoisting frame (16), the hoisting frame (16) comprises a sliding plate (17) which is fixedly connected with the fixing frame (14), a first sliding sleeve (18) which is arranged on the sliding plate (17) in a sliding mode, and a second sliding sleeve (19) which is arranged on the sliding plate (17) in a sliding mode, A first fixed rod (20) which is vertically and fixedly connected with the first sliding sleeve (18) and extends out of the fixed frame (14), a second fixed rod (21) which is vertically and fixedly connected with the second sliding sleeve (19) and extends out of the fixed frame (14), a first clamping sleeve (22) and a second clamping sleeve (23) which are slidably arranged on the first fixed rod (20), a third clamping sleeve (24) and a fourth clamping sleeve (25) which are slidably arranged on the second fixed rod (21), the first hanger rod (26) is fixedly connected with the first jacket (22) and the quenching inductor (15), the second hanger rod is fixedly connected with the second jacket (23) and the quenching inductor (15), the third hanger rod is fixedly connected with the third jacket (24) and the quenching inductor (15), and the fourth hanger rod is fixedly connected with the fourth jacket (25) and the quenching inductor (15).

2. The induction hardening heating assembly of claim 1, wherein the heating assembly (10) further comprises a first Y-axis guide rail (27) fixedly disposed on a first side of a top surface of the base (11), a second Y-axis guide rail (28) fixedly disposed on a second side of the top surface of the base (11) and parallel to the first Y-axis guide rail (27), a first slider (29) slidably disposed on the first Y-axis guide rail (27) and fixedly disposed on a first side of a bottom surface of the first sliding seat (12), a second slider (30) slidably disposed on the second Y-axis guide rail (28) and fixedly disposed on a second side of the bottom surface of the first sliding seat (12), and a first driving mechanism for driving the first slider (29) and the second slider (30) to slide along the first Y-axis guide rail (27) and the second Y-axis guide rail (28), respectively.

3. The induction quenching heating assembly according to claim 2, wherein the first driving mechanism comprises a first servo motor (31) fixedly arranged on a first side of the base (11), a first lead screw (32) fixedly connected with an output shaft of the first servo motor (31), and a first threaded sleeve (33) sleeved on the first lead screw (32) and screwed with the first lead screw (32), the first threaded sleeve (33) is fixedly arranged in the middle of the bottom surface of the first sliding seat (12), and the first lead screw (32) is arranged in parallel with the first Y-axis guide rail (27) and the second Y-axis guide rail (28).

4. The induction hardening heating assembly of any one of claims 1 to 3, the heating assembly (10) further comprises a first X-axis guide rail (34) fixedly arranged at the first end of the top surface of the first sliding seat (12), a second X-axis guide rail (35) fixedly arranged at the second end of the top surface of the first sliding seat (12) and parallel to the first X-axis guide rail (34), a third sliding block (36) slidably arranged on the first X-axis guide rail (34) and fixedly arranged at the first end of the bottom surface of the second sliding seat (13), a fourth sliding block (37) slidably arranged on the second X-axis guide rail (35) and fixedly arranged at the second end of the bottom surface of the second sliding seat (13), and a second driving mechanism for driving the third sliding block (36) and the fourth sliding block (37) to slide along the first X-axis guide rail (34) and the second X-axis guide rail (35) respectively.

5. The induction quenching heating assembly according to claim 4, wherein the second driving mechanism comprises a second servo motor (38) fixedly arranged on the second side of the base (11), a second lead screw (39) fixedly connected with an output shaft of the second servo motor (38), and a second threaded sleeve (40) sleeved on the second lead screw (39) and screwed with the second lead screw (39), the second threaded sleeve (40) is fixedly arranged in the middle of the bottom surface of the second sliding seat (13), and the second lead screw (39) is arranged in parallel with the first X-axis guide rail (34) and the second X-axis guide rail (35).

6. The induction quenching heating assembly according to claim 1, wherein the first sliding sleeve (18) is provided with a first sliding hole for the sliding plate (17) to slide through, the first sliding sleeve (18) is provided with a first screw hole which passes through the first sliding sleeve (18) and can be communicated with the first sliding hole, and the first screw hole is internally provided with a first locking bolt (47) which is in threaded connection with the first screw hole and can be inserted into the first sliding hole to abut against the sliding plate (17);

be equipped with on second sliding sleeve (19) and supply slide plate (17) slide the second slide opening that passes, be equipped with on second sliding sleeve (19) and pass second sliding sleeve (19) and can with the second screw of second slide opening intercommunication, be equipped with in the second screw with the second screw spiro union can insert to in the second slide opening with the second locking bolt of slide plate (17) butt.

7. The induction quenching heating assembly of claim 6, wherein a first connecting cap is fixedly arranged at a first end of the first fixing rod (20), the first connecting cap comprises a first fixing plate and a first sleeve fixedly arranged in the middle of the first fixing plate, the first end of the first fixing rod (20) is fixedly inserted into the first sleeve, and a plurality of first fixing holes for fixedly connecting with a first sliding sleeve (18) are formed in the first fixing plate;

the first end of second dead lever (21) has set firmly second connection cap (48), second connection cap (48) include the second fixed disk and set firmly in the second sleeve at second fixed disk middle part, the first end of second dead lever (21) is fixed insert extremely in the second sleeve, be equipped with on the second fixed disk be used for with second sliding sleeve (19) fixed connection's a plurality of second fixed orificess.

8. The induction hardening heating assembly of claim 7, wherein the first clamping sleeve (22) and the second clamping sleeve (23) each comprise a first clamping plate (41) and a second clamping plate (42), a first end of the first clamping plate (41) is rotatably connected with a first end of the second clamping plate (42), a second end of the first clamping plate (41) is connected with a second end of the second clamping plate (42) in a locking manner through a third locking bolt (43), and a first clamping hole (44) for the first fixing rod (20) to pass through is formed in the middle of the first clamping plate (41) and the middle of the second clamping plate (42);

the third clamping sleeve (24) and the fourth clamping sleeve (25) comprise a third clamping plate and a fourth clamping plate, the first end of the third clamping plate is rotatably connected with the first end of the fourth clamping plate, the second end of the third clamping plate is connected with the second end of the fourth clamping plate through a fourth locking bolt in a locking mode, and second clamping holes through which a second fixing rod (21) can penetrate are formed in the middle of the third clamping plate and the middle of the fourth clamping plate.

9. The induction hardening heating assembly of claim 8, wherein the first hanger bar (26) is fixedly connected at a top end thereof to the first jacket (22), and the first hanger bar (26) is provided at a bottom end thereof with a first external thread for connection to the hardening inductor (15);

the top end of the second suspender is fixedly connected with the second jacket (23), and the bottom end of the second suspender is provided with a second external thread used for connecting with the quenching inductor (15);

the top end of the third suspender is fixedly connected with the third jacket (24), and the bottom end of the third suspender is provided with a third external thread for connecting with the quenching inductor (15);

the top end of the fourth suspender is fixedly connected with the fourth jacket (25), and the bottom end of the fourth suspender is provided with a fourth external thread used for being connected with the quenching inductor (15).

10. The induction hardening heating assembly of claim 1, wherein said power supply device comprises a capacitor (45) and a transformer (46) secured to said fixture (14) and electrically connected to said hardening inductor (15).

Images