CN115821015A - Copying heat treatment equipment for rope grooves of winding drum - Google Patents

Abstract

The invention provides a copying heat treatment device for a rope groove of a winding drum, which relates to the field of heat treatment devices and comprises: the base is integrally rectangular, two extending contact bottom plates are symmetrically welded at the rear end of the base, two track shafts which are transversely arranged are symmetrically welded at the front and the back above the top ends of the two extending contact bottom plates, and a sliding frame is slidably mounted on the two track shafts; the carriage wholly comprises two axle sleeves and two location axostylus axostyles that are bilateral symmetry and weld on two axle sleeves around by, slidable mounting has a horizontal installation board on two location axle levers, after processing is accomplished, high frequency hardening part and two profiling mechanisms can be automatic and the reel after the cunning break away from, this saves and need extra manual power to carry out the trouble that manual separation was thrown off to high frequency hardening part, two profiling mechanisms and reel after processing is accomplished, convenient to use saves time, and is laborsaving, helps simplifying the operation use step of equipment.

Description

Copying heat treatment equipment for rope grooves of winding drum

Technical Field

The invention relates to the technical field of heat treatment equipment, in particular to profiling heat treatment equipment for a winding drum rope groove.

Background

The winding drum is a key typical part in a crane steel wire rope winding system, and when a hoisting mechanism of large cranes with large tonnage and high lift is designed, the rope grooves on the traditional spiral winding drum can not meet the heavy-load dragging requirement of multilayer winding, and the performance of the rope grooves needs to be improved difficultly, so that a copying heat treatment device for the rope grooves of the winding drum is urgently needed.

The subassembly of high frequency heating is implemented with the cooperation of reel rope socket card plug-in on the current heat treatment equipment, need separate with the reel after the processing is accomplished and throw off just can not hinder the lift hoist and mount of reel and get and unload, and prevent that its body from being destroyed by the reel striking of hoist and mount, but current high frequency heating subassembly's location mounting structure optimal design is reasonable inadequately, does not have automatic pine to take off the return function many times, cause and need extra manual operation to separate it and reel after the processing is accomplished, it is comparatively troublesome inconvenient to use.

Disclosure of Invention

In view of the above, the invention provides a profiling heat treatment device for a rope groove of a winding drum, which is used for solving the problems that the optimal design of a positioning and mounting structure of a high-frequency heating assembly is not reasonable enough, the high-frequency heating assembly does not have an automatic releasing and returning function, the high-frequency heating assembly needs to be separated from the winding drum by additional manual operation after processing is completed, and the use is troublesome and inconvenient.

The invention provides a profiling heat treatment device for a winding drum rope groove, which specifically comprises: the base is integrally rectangular, two extending contact bottom plates are symmetrically welded at the rear end of the base, two track shafts which are transversely arranged are symmetrically welded at the front and the back above the top ends of the two extending contact bottom plates, and a sliding frame is slidably mounted on the two track shafts; the sliding frame is integrally composed of a front shaft sleeve, a rear shaft sleeve and two positioning shaft rods welded on the two shaft sleeves in a bilateral symmetry mode, a horizontal mounting plate is slidably mounted on the two positioning shaft rods, and an electric heating control box is fixedly locked at the top end of the horizontal mounting plate through screws; four vertical support supporting rods are welded at the top end of the base in a bilateral symmetry mode, two rotating shafts are symmetrically and rotatably installed between the top ends of the four vertical support supporting rods, four rotating sleeves are symmetrically and slidably installed on the two rotating shafts, one rubber wheel is sleeved on each rotating sleeve, and the four rubber wheels are used for supporting and rotationally driving a winding drum to be processed; two profiling mechanisms are symmetrically welded at the front end of the horizontal mounting plate, the profiling mechanism is integrally composed of an L-shaped supporting rod and a steel wheel rotatably mounted at the head end of the L-shaped supporting rod, and the two steel wheels are embedded and matched with the spiral rope groove on the winding drum; two copper pipes are symmetrically and forwardly supported on the upper half section of the front side wall of the electric heating control box, the head ends of the two copper pipes are fixedly provided with an HF quenching part, and the HF quenching part is in a trapezoidal structure, is inserted and matched with the spiral bulge card between the spiral rope grooves on the winding drum and carries out heat treatment on the spiral bulge; a sliding transmission part is arranged on the right side of the profiling mechanism in a sliding way; two vertical support positioning rods are symmetrically welded at the top end of the rear side shaft sleeve, and a sliding plate is slidably mounted on the two vertical support positioning rods through spring pushing.

Furthermore, the rear end of the right side positioning shaft rod is welded with an installation ring, an inserting positioning piece is installed on the installation ring in a penetrating and sliding mode through spring pushing, the inserting positioning piece is of a continuous vertical folding structure, the left end of a horizontal plate at the bottom of the inserting positioning piece is of an oblique-cut structure, and a stress triangular block is fixedly welded on the left end section of the horizontal plate at the top end of the inserting positioning piece.

Furthermore, the synchronous frame is sleeved at one end, far away from each other, of each rotating sleeve, the whole synchronous frame is composed of two shaft rings and a longitudinal support connecting rod welded between the bottom side parts of the two shaft rings, and one end, close to each other, of each rotating sleeve penetrates through and is screwed with one tightening bolt.

Furthermore, the whole slide transmission spare is special-shaped and rolls over the structure of turning, and a department's apical wheel is installed to the head end of the top horizontal segment of slide transmission spare, and the spiral uplift between apical wheel and the spiral grooving on the reel pushes away and supports and lean on the contact, and is provided with a prescription shape sliding sleeve on the vertical supporting part of slide transmission spare, square sliding sleeve and the top horizontal segment sliding fit of right side L form branch.

Furthermore, the bottom horizontal section of the sliding transmission part penetrates through sliding fit with the bottom section of the right L-shaped supporting rod vertical supporting part through spring pushing, and the tail end of the bottom horizontal part of the sliding transmission part is welded with an impact triangular block which slides forwards to be in impact contact with the stressed triangular block.

Furthermore, a positioning screw is arranged on the middle section of the sliding plate in a penetrating and screwing mode, and a steel ball is embedded and arranged at the front end of the positioning screw.

Furthermore, a stress short plate which is vertically arranged is welded in the middle of the rear side of the horizontal mounting plate, and the steel ball at the front end of the positioning screw rod is abutted to the stress short plate to be contacted.

Furthermore, a positioning block is welded at the right end of the sliding plate, and the positioning block slides upwards to abut against and contact with the left-end oblique section of the inserting positioning piece.

Advantageous effects

1. According to the invention, the horizontal mounting plate and the electric heating control box can drive the left and right sliding by utilizing the rotary propulsion of the spiral rope groove on the winding drum through the two steel wheels on the profiling mechanism, and the high-frequency quenching component can be controlled to continuously transmit and shift along the shape and the rotary direction of the spiral bulge to continuously heat the spiral bulge, so that the treatment efficiency of the spiral bulge is favorably improved, the high-frequency quenching component is driven to transmit by indirectly utilizing the rotary propulsion of the spiral rope groove on the winding drum, a transmission driving motor additionally configured for the high-frequency quenching component is omitted, and the whole manufacturing cost of equipment is favorably reduced.

2. According to the invention, the two steel wheels are matched for use, so that a power relay effect can be achieved, when the high-frequency quenching part is conveyed to one of the two ends of the winding drum, and is separated from the winding drum, the remaining steel wheel in contact with the winding drum can still continuously push and drive the high-frequency quenching part, the high-frequency quenching part is prevented from sliding to the leftmost end and the rightmost end of the winding drum, complete and thorough heat treatment processing cannot be carried out on the spiral bulge on the winding drum, and the comprehensive processing effect on the winding drum is ensured.

3. According to the invention, after the machining is finished, the high-frequency quenching part and the two copying mechanisms can automatically slide away from the winding drum, so that the trouble that the high-frequency quenching part, the two copying mechanisms and the winding drum are separated and separated manually by extra manual force output after the machining is finished is eliminated, the use is convenient, time and labor are saved, and the operation and use steps of the equipment are simplified.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic diagram of a rear side structure of a base according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a front side structure of a base according to an embodiment of the invention.

Fig. 3 is a schematic view of a rotating shaft structure of the embodiment of the present invention.

FIG. 4 is a schematic diagram of the rear side structure of the horizontal mounting plate of the embodiment of the invention.

FIG. 5 is a schematic diagram of the front side structure of the horizontal mounting plate of the embodiment of the invention.

Fig. 6 is a schematic view of a swivel sleeve structure of an embodiment of the present invention.

FIG. 7 is a schematic view of the construction of a sliding drive according to an embodiment of the invention.

Fig. 8 is a schematic view of the sliding panel structure of the embodiment of the present invention.

Fig. 9 is an enlarged schematic view of a portion a in fig. 1 according to an embodiment of the present invention.

List of reference numerals

1. A base; 101. an extended contact base plate; 102. a rail shaft; 103. a rotating shaft; 104. a carriage; 105. a vertical supporting positioning rod; 106. inserting and positioning pieces; 107. a stressed triangular block; 2. rotating the sleeve; 201. a rubber wheel; 202. a synchronous frame; 3. a horizontal mounting plate; 301. a profiling mechanism; 302. a short stressed plate; 4. an electric heating control box; 401. a high-frequency-quenched component; 5. a sliding transmission member; 501. impacting the triangular block; 6. a sliding plate; 601. positioning a screw rod; 602. and (5) positioning the blocks.

Detailed Description

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

Example (b): please refer to fig. 1 to fig. 9:

the invention provides a profiling heat treatment device for a rope groove of a winding drum, which comprises a base 1, wherein the base 1 is integrally of a rectangular structure, two extending contact bottom plates 101 are symmetrically welded at the rear end of the base 1, two track shafts 102 which are transversely arranged are symmetrically welded at the front and the back above the top ends of the extending contact bottom plates 101 at the two positions, and a sliding frame 104 is slidably arranged on the two track shafts 102; the sliding frame 104 is integrally composed of a front shaft sleeve and a rear shaft sleeve and two positioning shaft rods welded on the two shaft sleeves in a bilateral symmetry manner, a horizontal mounting plate 3 is slidably mounted on the two positioning shaft rods, and the top end of the horizontal mounting plate 3 is fixedly provided with an electric heating control box 4 through screw locking; four vertical support supporting rods are welded at the top end of the base 1 in a bilateral symmetry mode, two rotating shafts 103 are symmetrically installed between the top ends of the four vertical support supporting rods in a rotating mode, four rotating sleeves 2 are symmetrically installed on the two rotating shafts 103 in a sliding mode, one rubber wheel 201 is sleeved on each rotating sleeve 2, the four rubber wheels 201 are used for supporting and rotationally driving a winding drum to be processed, the four rubber wheels 201 can rotate to drive the winding drum to rotate, circumferential comprehensive high-frequency heating processing can be conveniently conducted on spiral protruding portions on the winding drum by the high-frequency quenching component 401, the four rotating sleeves 2 and the two rotating shafts 103 are movably sleeved and installed in an inserting and matching mode, the distance between the four rotating sleeves can be adjusted in a bilateral sliding mode, the high-frequency quenching component is suitable for supporting placement and rotationally driving the winding drums with different lengths to be processed, and the application range is wide; two profiling mechanisms 301 are symmetrically welded at the front end of the horizontal mounting plate 3, the profiling mechanism 301 integrally consists of an L-shaped support rod and a steel wheel rotatably mounted at the head end of the L-shaped support rod, the two steel wheels are in embedded fit with a spiral rope groove on a winding drum, the horizontal mounting plate 3 and the electric heating control box 4 can drive the left and right sliding by utilizing the rotary propulsion of the spiral rope groove on the winding drum, the high-frequency quenching component 401 is controlled to continuously carry out heating treatment on the spiral bulge along the shape and the rotary direction of the spiral bulge, the treatment efficiency of the spiral bulge is favorably improved, the high-frequency quenching component 401 indirectly drives the transmission by utilizing the rotary propulsion force of the spiral rope groove on the winding drum, a transmission driving motor additionally arranged for the high-frequency quenching component 401 is omitted, the overall cost of equipment is favorably reduced, the two steel wheels are matched for use and can play a role of relay power, when one of the high-frequency quenching component 401 is transmitted to one of the two ends of the winding drum, the remaining steel wheel in contact with the winding drum can still continue to drive the high-frequency quenching component, the pushing mechanism 401 is prevented from moving to the left end of the winding drum, and the most comprehensive treatment effect of the winding drum on the winding drum can be ensured, and the high-frequency quenching component 401 can not be completely processed; two copper pipes are symmetrically and forwardly supported on the upper half section of the front side wall of the electric heating control box 4, the head ends of the two copper pipes are fixedly provided with a high-frequency quenching part 401, and the high-frequency quenching part 401 is in a trapezoidal structure and is inserted and matched with a spiral bulge card between spiral rope grooves on a winding drum and carries out heat treatment on the spiral bulge; a sliding transmission piece 5 is arranged on the right copying mechanism 301 in a sliding way; two vertical support positioning rods 105 are symmetrically welded at the top end of the rear side shaft sleeve, and a sliding plate 6 is slidably mounted on the two vertical support positioning rods 105 through spring pushing; the rear end of the right positioning shaft rod is welded with a mounting ring, the mounting ring is provided with an inserting positioning piece 106 which is pushed by a spring to penetrate through and slide, the inserting positioning piece 106 is of a continuous vertical folding structure, the left end of a horizontal plate at the bottom of the inserting positioning piece 106 is of an oblique structure, and a stressed triangular block 107 is welded and fixed on the left end section of the horizontal plate at the top end of the inserting positioning piece 106; the whole sliding transmission part 5 is of a special-shaped folding structure, a top wheel is installed at the head end of the top horizontal section of the sliding transmission part 5, the top wheel and the spiral ridge between the spiral rope grooves on the winding drum are pushed to abut against and contact, a square sliding sleeve is arranged on the vertical supporting part of the sliding transmission part 5, and the square sliding sleeve is in sliding fit with the top horizontal part of the right L-shaped supporting rod.

Wherein, the one end of keeping away from each other all suits a synchronous frame 202 on the four places rotating sleeve 2, synchronous frame 202 is whole by two shaft collars and weld in two shaft collars bottom side portion between indulge prop the connecting rod and constitute jointly, the one end that is close to each other all runs through to twist soon on the four places rotating sleeve 2 has a puller bolt, synchronous frame 202 can be with controlling four places rotating sleeve 2 and be two liang of a set of connection, can implement sliding adjustment to the bracketing interval of four places rotating sleeve 2 simultaneously through two synchronous frames 202, save the trouble of stepping in proper order to implement respectively sliding adjustment to four places rotating sleeve 2, and the puller bolt of four places can be fixed in the use gesture after sliding adjustment with the puller bolt of four places rotating sleeve 2.

Wherein, the bottom horizontal section of the sliding transmission piece 5 is in penetrating sliding fit with the bottom section of the vertical supporting part of the right L-shaped supporting rod through spring pushing, the tail end of the bottom horizontal part of the sliding transmission piece 5 is welded with an impact triangular block 501, the impact triangular block 501 slides forwards to be in impact contact with the stressed triangular block 107, the top wheel is in abutting contact with the spiral bulge and is pushed backwards to drive the spring compressing the bottom horizontal rod section to slide backwards in the processing and using process, at the moment, the impact triangular block 501 is separated from the stressed triangular block 107 in a backward sliding way, after the high-frequency quenching part 401 and the top wheel are separated from the left end and the right end of the winding drum after the processing is finished, the sliding transmission piece 5 loses the pushing holding force of the winding drum and can be driven by the spring rebound on the winding drum to slide forwards, the impact force of the impact triangular block 501 is controlled to drive the stressed triangular block 107 and the inserting positioning piece 106 to slide right and be pulled out to release the sliding plate 6, so that the sliding plate 6 and the positioning screw 601 are driven to slide down and reset by the resilience of the springs on the two vertical supporting positioning rods 105 and are separated from the stressed short plate 302, the high-frequency quenching part 401 and the two profiling mechanisms 301 are controlled to automatically slide away from the winding drum, the trouble that the high-frequency quenching part 401 and the two profiling mechanisms 301 are separated and disconnected manually after the processing is finished by extra manual force output is omitted, the use is convenient, time and labor are saved, and the operation and use steps of the equipment are simplified.

The middle section of the sliding plate 6 is provided with a positioning screw 601 in a penetrating and screwing manner, the front end of the positioning screw 601 is embedded with a steel ball, and the steel ball can reduce the frictional resistance between the positioning screw 601 and the stress short plate 302, so that the sliding plate 6 and the positioning screw 601 can be rebounded by springs on two vertical support positioning rods 105 to drive the sliding plate to freely and smoothly slide down to be separated from the stress short plate 302, and the normal implementation of the automatic backward sliding separation function of the high-frequency quenching part 401 after the processing is ensured.

The middle position of the rear side of the horizontal mounting plate 3 is welded with a vertically arranged stress short plate 302, a steel ball at the front end of the positioning screw 601 is abutted to and contacted with the stress short plate 302, the positioning screw 601 and the sliding plate 6 can push and position the stress short plate 302 when in an upward sliding state, so that the horizontal mounting plate 3, two steel wheels and the high-frequency quenching part 401 are kept in a use state of reel contact processing, after the positioning screw 601 and the stress short plate 302 slide downwards and are separated, the horizontal mounting plate 3 can be pushed and pushed by spring rebounds on two positioning shaft rods to drive the rear sliding to reset, so that the high-frequency quenching part 401 and two profiling mechanisms 301 are separated from a reel, and the processed reel is conveniently lifted, lifted and taken out.

The right end of the sliding plate 6 is welded with a positioning block 602, the positioning block 602 slides upward to abut against and contact with the left end oblique section of the plug positioning element 106, and the plug positioning element 106 can be plugged into the fixed positioning block 602, so that the positioning screw 601 and the sliding plate 6 are kept in an upward sliding pushing and keeping use state.

The specific use mode and function of the embodiment are as follows: in the invention, the four rubber wheels 201 are used for supporting and rotationally driving the winding drum to be processed, the four rubber wheels 201 can rotate to drive the winding drum to rotate, so that the high-frequency quenching part 401 can perform circumferential comprehensive high-frequency heating treatment on the spiral bulged part on the winding drum, the four rotating sleeves 2 and the two rotating shafts 103 are movably sleeved and installed in an inserting and matching mode, the distance between the four rotating sleeves can be adjusted in a left-right sliding mode, the high-frequency quenching part is suitable for supporting and placing and rotationally driving the winding drums with different lengths to be applied, the left rotating sleeve 2 and the right rotating sleeve 2 can be connected in a group two by two synchronous frames 202, the supporting distances of the four rotating sleeves 2 can be adjusted in a sliding mode by the two synchronous frames 202, and in addition, the four jacking bolts can jack up and fix the four rotating sleeves 2 in the use postures after sliding adjustment;

through two steel wheels on the profiling mechanism 301, the horizontal mounting plate 3 and the electric heating control box 4 can utilize a spiral rope groove on a winding drum to rotationally push and drive the spiral bulge to slide left and right, the high-frequency quenching part 401 is controlled to be capable of continuously transmitting and displacing along the shape and the rotating direction of the spiral bulge to continuously heat the spiral bulge, the top wheel is abutted against and contacted with the spiral bulge and pushed backwards to drive a spring on a horizontal rod section at the bottom of the high-frequency quenching part to slide backwards in the processing and using process, at the moment, the impact triangular block 501 is separated from the stressed triangular block 107 in a backward sliding mode, after the high-frequency quenching part 401 and the top wheel are separated from the left end and the right end of the winding drum after processing and using, the sliding transmission part 5 loses the pushing and keeping force of the winding drum and is driven by the spring resilience of the spring on the sliding transmission part to impact and slide forwards, the impact triangular block 501 is controlled to impact and contact with the stressed triangular block 107, the impact force of the impact triangular block 501 can drive the stressed triangular block 107 and the plug-in-connection triangular block 106 to slide and release the sliding plate 6, so that the sliding plate 6 and the positioning screw rod 601 are driven by the spring on the two supporting positioning rods 105 to reset and separated from the stressed short plate 302, and the high-frequency quenching mechanism 301 to be convenient to be separated from the winding drum after processing and lifting mechanism to finish the automatic lifting and the winding drum.

Claims (8)

1. A copying heat treatment device for a rope groove of a winding drum is characterized by comprising: the base (1) is integrally rectangular, two extending contact bottom plates (101) are symmetrically welded to the rear end of the base (1), two track shafts (102) which are transversely arranged are symmetrically welded to the front and the back above the top ends of the extending contact bottom plates (101), and a sliding frame (104) is slidably mounted on the two track shafts (102); the sliding frame (104) is integrally composed of a front shaft sleeve and a rear shaft sleeve and two positioning shaft rods welded on the two shaft sleeves in a bilateral symmetry mode, a horizontal mounting plate (3) is slidably mounted on the two positioning shaft rods, and an electric heating control box (4) is fixedly locked at the top end of the horizontal mounting plate (3) through screws; the top end of the base (1) is bilaterally symmetrically welded with four vertical support rods, two rotating shafts (103) are symmetrically and rotatably arranged between the top ends of the four vertical support rods, four rotating sleeves (2) are symmetrically and slidably arranged on the two rotating shafts (103), one rubber wheel (201) is sleeved on each rotating sleeve (2), and the four rubber wheels (201) are used for supporting and rotationally driving a winding drum to be processed; two profiling mechanisms (301) are symmetrically welded at the front end of the horizontal mounting plate (3), the profiling mechanisms (301) integrally comprise an L-shaped support rod and a steel wheel rotatably mounted at the head end of the L-shaped support rod, and the two steel wheels are embedded and matched with the spiral rope groove on the winding drum; the upper half section of the front side wall of the electric heating control box (4) is symmetrically and forwardly supported with two copper pipes, the head ends of the two copper pipes are fixedly provided with a high-frequency quenching part (401), and the high-frequency quenching part (401) is in a trapezoidal structure and is inserted and matched with the spiral bulge card between the spiral rope grooves on the winding drum and carries out heat treatment on the spiral bulge; a sliding transmission piece (5) is arranged on the right profiling mechanism (301) in a sliding way; two vertical supporting positioning rods (105) are symmetrically welded at the top end of the rear side shaft sleeve, and a sliding plate (6) is slidably mounted on the two vertical supporting positioning rods (105) through spring pushing.

2. The profiling heat treatment device for the rope grooves of the winding drum as claimed in claim 1, characterized in that: the rear end of the right positioning shaft rod is welded with an installation ring, the installation ring is provided with an inserting positioning piece (106) in a penetrating and sliding mode through spring pushing, the inserting positioning piece (106) is of a continuous vertical folding structure, the left end of a horizontal plate at the bottom of the inserting positioning piece (106) is of an oblique-section structure, and a stress triangular block (107) is fixedly welded on the left end section of the horizontal plate at the top end of the inserting positioning piece (106).

3. The profiling heat treatment device for the rope grooves of the winding drum as claimed in claim 1, characterized in that: one end of each rotating sleeve (2) which is far away from each other is sleeved with a synchronizing frame (202), the synchronizing frame (202) is integrally composed of two shaft rings and longitudinal support connecting rods welded between the bottom side parts of the two shaft rings, and one end of each rotating sleeve (2) which is close to each other penetrates through and is screwed with a jacking bolt.

4. The profiling heat treatment device for the rope grooves of the winding drum as claimed in claim 1, characterized in that: the whole sliding transmission part (5) is of a special-shaped folding structure, a top wheel is installed at the head end of the top end horizontal section of the sliding transmission part (5), the top wheel and a spiral ridge between spiral rope grooves on the winding drum are pushed to abut against and contact, a vertical supporting part of the sliding transmission part (5) is provided with a square sliding sleeve, and the square sliding sleeve is in sliding fit with the top end horizontal part of the right L-shaped supporting rod.

5. The profiling heat treatment device for the rope grooves of the winding drum as claimed in claim 2, characterized in that: the bottom horizontal segment of sliding transmission spare (5) passes through sliding fit through the spring top with the bottom section of right side L form branch erects the strut part, and the tail end welding of sliding transmission spare (5) bottom horizontal segment has one and strikes three hornblocks (501), strikes three hornblocks (501) and slides forward and strike the contact with atress three hornblocks (107).

6. The profiling heat treatment device for the rope grooves of the winding drum as claimed in claim 1, characterized in that: the middle section of the sliding plate (6) is provided with a positioning screw rod (601) in a penetrating and screwing mode, and the front end of the positioning screw rod (601) is embedded with a steel ball.

7. The profiling heat treatment device for the rope grooves of the winding drum as claimed in claim 6, characterized in that: the middle position of the rear side of the horizontal mounting plate (3) is welded with a vertically arranged stress short plate (302), and a steel ball at the front end of the positioning screw rod (601) is abutted to the stress short plate (302) to contact.

8. The profiling heat treatment device for the rope grooves of the winding drum as claimed in claim 2, characterized in that: the right end of the sliding plate (6) is welded with a positioning block (602), and the positioning block (602) slides upwards to abut against and contact with the left end oblique section of the plug positioning piece (106).

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