CN214445097U - Roller changing and polishing system of annealing furnace - Google Patents

Abstract

The utility model discloses an annealing stove roll change system of polishing, including roll changing device, storage roller frame, stove roller deburring grinding machine, roll changing device includes frame, two parallel arrangement slide rails in the frame, sets up slide between two slide rails, is used for driving the slide along slide actuating mechanism that slide rail length direction removed, rotates the swing arm of being connected with the slide, sets up on the slide and be used for driving swing arm wobbling swing arm actuating mechanism, set up anchor clamps in the swing arm, carry out the cooling body that cools down to the stove roller. The utility model provides an annealing furnace roller-changing polishing system which can draw the old furnace roller out of the annealing furnace for cooling through the roller-changing device and assist the workers to complete the roller-changing work of the new furnace roller; in addition, the replaced old furnace roller is ground and renovated on site under the matching of the roller storage frame and the furnace roller deburring grinding machine, so that the time and labor cost consumed by lifting the old furnace roller and the new furnace roller for a long distance and the transportation cost of carrying the new and old furnace rollers between grinding and renovating factories are reduced.

Description

Roller changing and polishing system of annealing furnace

Technical Field

The utility model relates to a belted steel production technical field, in particular to annealing stove roll change system of polishing.

Background

The stainless steel strip after cold rolling needs to be annealed by an annealing furnace to obtain the required machining performance. A preheating section, a heating section and a cooling section are arranged in the annealing furnace currently used; the strip steel at normal temperature enters a preheating section and a heating section of the inner diameter of a furnace to be heated continuously, a small amount of iron oxide on the surface of the strip steel is reduced into sponge iron under the conditions of high temperature and reducing atmosphere, and the generated sponge iron is easy to root and grow at the roughness valley point of the roller surface due to the speed difference between the strip steel and the roller (the speed difference of a unit and the speed difference of an inertia system of the strip steel) and the roughness of the roller surface, wherein the longer the sponge iron is, the more the sponge iron is accumulated, the serious defect of concave pits is printed on the strip steel by the nodules, and the quality of strip steel products is influenced.

Therefore, the furnace rollers need to be replaced after working for several hours, the annealing furnace is arranged at a high position, the furnace rollers need to be detached each time when the furnace rollers are replaced, then the detached old furnace rollers are hoisted to the ground through hoisting equipment, new furnace rollers are hoisted to the side of the annealing furnace from the ground to replace the furnace rollers, and the old furnace rollers are collected uniformly and then transported to other factories, and the accretions on the old furnace rollers are polished and removed for recycling. However, after the old furnace roller is dismounted, long-distance hoisting work needs to be carried out, the hoisting time consumption is large, and the working efficiency is low; and the production cost of transporting a plurality of old furnace rollers to other factories for treatment and reuse is high.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing prior art's weak point, an object of the utility model is to provide an annealing stove roll changing system of polishing aims at on-the-spot stove roller roll changing work and the old stove roller work of renovating of polishing of accomplishing, reduces the time that long distance handling and transport brought and expends and manufacturing cost.

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

a roller changing and polishing system of an annealing furnace comprises a roller changing device, a roller storage frame and a furnace roller deburring grinding machine, wherein the roller changing device comprises a rack, two slide rails arranged on the rack in parallel, a slide seat arranged between the two slide rails, a slide seat driving mechanism used for driving the slide seat to move along the length direction of the slide rails, a swing arm rotationally connected with the slide seat, a swing arm driving mechanism arranged on the slide seat and used for driving the swing arm to swing, a clamp arranged on the swing arm and a cooling mechanism used for cooling a furnace roller; the clamp is used for clamping the furnace roller; the furnace roller nodule removing grinding machine is used for removing nodules on the furnace roller; the roller storage frame is used for storing a plurality of furnace rollers.

The cooling mechanism comprises a water-cooling machine, a first water pipe and a second water pipe which are connected with the water-cooling machine, a tray arranged on one of the slide rails, a drag chain arranged on the tray, and a bracket arranged on the slide seat; one end of the drag chain is fixedly connected with the bracket, and the other end of the drag chain is fixedly connected with the tray; and part of the first water pipe and the second water pipe are arranged on the drag chain in parallel.

The swing arm driving mechanism comprises a first driving motor and a first lead screw lifter, the first driving motor and the first lead screw lifter are arranged on the sliding table, the first driving motor is in transmission connection with an input rotating shaft of the first lead screw lifter, a lead screw of the first lead screw lifter is vertically arranged, and the top end of the lead screw is hinged to the swing arm.

The fixture comprises a bottom plate, a lower chuck fixedly arranged on the bottom plate, an upper chuck arranged above the lower chuck, and a locking mechanism used for clamping the upper chuck and the lower chuck, wherein an upper arc opening is formed in the upper chuck, a lower arc opening is formed in the lower chuck, and the upper arc opening and the lower arc opening can be combined to form a furnace roller clamping opening.

The bottom plate is connected with the swing arm through screws, and a plurality of groups of threaded holes are arranged on the upper surface of the swing arm at intervals along the length direction of the swing arm; the free end of the swing arm is provided with a bearing plate, and the top of the bearing plate is provided with a bearing arc opening.

The rack comprises a heightening table, an underframe used for supporting the middle parts of the two slide rails, and two side arms respectively arranged at the left side and the right side of the two slide rails; the bottom of the underframe is provided with a first caster, the bottom of the side arm is provided with a second caster, and the second caster is pressed on the padding table; the slide rail is driven to move left and right by the longitudinal movement driving mechanism.

The longitudinal movement driving mechanism comprises two second lead screw lifters which are respectively arranged on the left side and the right side of the two slide rails, lead screws of the two second lead screw lifters are horizontally arranged and are connected through a coupler, lead screw nuts of the two second lead screw lifters are respectively fixedly connected with the two slide rails, and input rotating shafts of the two second lead screw lifters are respectively connected with a hand wheel; the lifter main bodies of the two second screw rod lifters are fixed on the heightening table through the mounting frame.

The sliding seat driving mechanism comprises a motor mounting frame arranged on one end of the two sliding rails, a second driving motor arranged on the motor mounting frame, a driving lead screw arranged between the two sliding rails, and a lead screw nut sleeved on the driving lead screw, and the lead screw nut is fixedly connected with the sliding seat; the second driving motor is in transmission connection with the driving lead screw; t-shaped sliding grooves are formed in the inner sides of the two sliding rails along the length direction of the sliding rails, and the left side and the right side of each sliding seat are connected with the corresponding T-shaped sliding grooves in a sliding mode through sliding blocks.

The roller storage frame is divided into a region to be polished and a new roller region; treat that polishing district and new roller district all are equipped with the locating plate, offer the constant head tank that a plurality of is used for fixing a position the stove roller on every locating piece.

The furnace roller deburring lathe comprises a workbench, a lathe chuck arranged on the workbench, a chuck driving mechanism for driving the lathe chuck to rotate, a positioning mechanism for fixing a rotary joint on the furnace roller and a grinding wheel polishing mechanism for polishing the excircle of the furnace roller, wherein the grinding wheel polishing mechanism can move along the axial direction of the furnace roller.

Has the advantages that:

compared with the prior art, the annealing furnace roller-changing polishing system provided by the utility model has the advantages that the old furnace roller is taken out from the annealing furnace for cooling through the roller-changing device, and the workers are assisted to complete the roller-changing work of the new furnace roller; in addition, the replaced old furnace roller is ground and renewed on site under the matching of the roller storage frame and the furnace roller deburring grinder, the renewed new furnace roller can be directly replaced with the old furnace roller, and therefore the time and labor cost consumed by long-distance hoisting of the old furnace roller and the new furnace roller and the transportation cost of carrying the new and old furnace roller between grinding and renewing factories are reduced.

Drawings

FIG. 1 is a first perspective view of the roll-changing polishing system of the annealing furnace provided by the present invention.

FIG. 2 is a second perspective view of the roll-changing polishing system of the annealing furnace.

FIG. 3 is a schematic structural view of the roll-changing polishing system of the annealing furnace.

FIG. 4 is a perspective view of the swing arm and the clamp in the roll-changing polishing system of the annealing furnace provided by the present invention.

FIG. 5 is a perspective view of a furnace roller deburring grinding machine in the roller changing and polishing system of the annealing furnace provided by the utility model.

Description of the main element symbols: 1-roller changing device, 12-slide rail, 13-slide seat, 14-swing arm, 2-roller storage rack, 3-furnace roller deburring grinding machine, 4-slide seat driving mechanism, 5-swing arm driving mechanism, 6-clamp, 7-cooling mechanism, 71-first water pipe, 72-second water pipe, 73-tray, 74-drag chain, 75-bracket, 51-first driving motor, 52-first lead screw lifter, 61-bottom plate, 62-lower chuck, 63-upper chuck, 64-locking mechanism, 631-upper arc port, 621-lower arc port, 65-furnace roller clamp port, 641-screw rod, 642-pressing head, 643-avoiding groove, 644-handle, 66-screw, 67-threaded hole, 141-supporting plate, 142-a bearing arc port, 111-a cushion elevation platform, 112-a bottom frame, 113-a side arm, 114-a first caster wheel, 115-a second caster wheel, 8-a longitudinal movement driving mechanism, 81-a second screw rod lifter, 82-a hand wheel, 83-a mounting frame, 41-a motor mounting frame, 42-a second driving motor, 43-a driving screw rod, 44-T type chutes, 21-a to-be-polished area, 22-a new roller area, 31-a workbench, 32-a lathe chuck, 33-a chuck driving mechanism, 34-a positioning mechanism and 35-a grinding wheel polishing mechanism.

Detailed Description

The utility model provides an annealing stove roll change system of polishing, for making the utility model discloses a purpose, technical scheme and effect are clearer, make clear and definite, and it is right that the following refers to the attached drawing and the embodiment is lifted the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are merely illustrative of the present invention and are not intended to limit the scope of the invention.

Herein, "front" is the direction of the roll changing device towards the annealing furnace, and "front" is opposite to "rear"; "left" is the direction indicated by the arrow in fig. 1, i.e. the direction of the roll changing device towards the furnace roll deburring grinding machine, "left" is opposite to "right".

References herein to "first", "second", etc., are for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicit indication of the number of technical features indicated.

Referring to fig. 1-5, the utility model provides an annealing furnace roll changing polishing system, which comprises a roll changing device 1, a roll storage rack 2 and a furnace roller deburring grinding machine 3, wherein the roll changing device 1 comprises a frame, two slide rails 12 arranged in parallel on the frame, a slide seat 13 arranged between the two slide rails 12, a slide seat driving mechanism 4 for driving the slide seat 13 to move along the length direction of the slide rails 12, a swing arm 14 rotatably connected with the slide seat 13, a swing arm driving mechanism 5 arranged on the slide seat 13 and used for driving the swing arm 14 to swing, a clamp 6 arranged on the swing arm 14, and a cooling mechanism 7 for cooling the furnace roller; the clamp 6 is used for clamping the furnace roller; the furnace roller nodule removing grinding machine 3 is used for removing nodules on the furnace roller; the roller storage frame 2 is used for storing a plurality of furnace rollers.

In practical application, as shown in fig. 3, when the furnace roller 90 works in the annealing furnace 91, the furnace roller is in a high-temperature state, and a water cooling system is required to cool and dissipate heat, so as to prolong the service life of the furnace roller; therefore, one end of each furnace roller 91 is provided with a rotary joint 92 in advance, each rotary joint 92 is provided with a water inlet joint 93 and a water outlet joint 94, the water inlet joint 93 and the water outlet joint 94 are respectively provided with a switch 95, a water flow channel is arranged inside the furnace roller, the water inlet joint 93 on the rotary joint is connected with a water inlet pipe 96 of a water cooling system, the water outlet joint 94 of the rotary joint is connected with a water outlet pipe 97 of the water cooling system, cooling water flows through the water flow channel of the furnace roller, and heat exchange is carried out on the furnace roller to realize heat dissipation and temperature reduction.

When the furnace roller works in the annealing furnace for a period of time, the furnace roller surface nodules become old furnace rollers, and the roller needs to be replaced in time, at the moment, the switches 95 on the water inlet connector 93 and the water outlet connector 94 are closed to block the cooling water in the water flow channel of the furnace roller, then the water inlet switch and the water outlet switch of the water cooling system are disconnected, and then the water inlet pipe 96 and the water outlet pipe 97 of the water cooling system are disconnected with the rotary connector 92. Then, the operator controls the slide seat driving mechanism 4 to act, and drives the slide seat 13 to move towards the furnace roller direction; the swing arm 14 is moved to the lower part of the furnace roller 90, then the swing arm driving mechanism 5 drives the swing arm 14 to gradually swing upwards until the swing arm 14 tends to be horizontal, the furnace roller 90 is clamped by matching with the clamp 6, and at the moment, because the furnace roller is still in a high-temperature state, the furnace roller 90 needs to be continuously cooled through the cooling mechanism 7; the carriage drive mechanism 4 then drives the carriage 13 to move away from the annealing furnace 91, so that the furnace rolls are extracted from the annealing furnace. When the furnace roller 90 is cooled to a preset temperature range (the cooling time is 15 minutes to half an hour), the worker loosens the clamp 6, disconnects the cooling mechanism 7 from the old furnace roller, and lifts and transports the old furnace roller to the roller storage frame 2 beside the roller changing device 1; finally, a new furnace roller on the roller storage frame 2 is hoisted to the clamp 6, the clamp 6 clamps the new furnace roller, then the slide seat driving mechanism 4 drives the slide seat 13 to move towards the direction close to the annealing furnace, and meanwhile, the swing arm driving mechanism 5 drives the swing arm 14 to swing so as to adjust the angle of the new furnace roller entering the annealing furnace and ensure that the new furnace roller smoothly enters the annealing furnace to realize installation; after the new furnace roller is installed, the clamping is loosened, the slide seat driving mechanism 4 drives the slide seat 13 to move towards the direction far away from the annealing furnace, and a water inlet pipe and a water outlet pipe of the water cooling system are respectively connected with a rotary joint on the new furnace roller, so that the new furnace roller can dissipate heat and cool when in work.

After finishing roll changing work, the staff can hoist the old furnace roller on the roller storage frame 2 to the furnace roller deburring grinding machine 3 located beside the roll changing device 1, and the excircle of the furnace roller is polished and renovated by the furnace roller deburring grinding machine 3 so as to remove the sponge iron nodules attached to the surface of the furnace roller. And the old furnace roller after being polished and debugged is changed into a new furnace roller and is hoisted and transported back to the roller storage frame 2 for caching to wait for roller replacement. Therefore, the utility model provides an annealing stove roll change system of polishing not only can assist the staff to accomplish roll change work, can also carry out the scene to the old stove roller that gets off of changing and polish and renovate, not only reduces time and the human cost that the old stove roller of long distance handling and new stove roller expend and new and old stove roller is polishing the transportation expense of renovating the transport between the mill.

Specifically, referring to fig. 1 and 2, the cooling mechanism 7 includes a water cooling machine (not shown), a first water pipe 71 and a second water pipe 72 connected to the water cooling machine, a tray 73 disposed on one of the slide rails 12, a drag chain 74 disposed on the tray 73, and a bracket 75 disposed on the slide carriage 13; one end of the drag chain 74 is fixedly connected with the bracket 75, the other end of the drag chain is fixedly connected with the tray 73, and the tray 73 limits the travel track of the drag chain 74; a part of the first water pipe 71 and the second water pipe 72 are arranged in parallel on the drag chain 74. It can be understood that when the swing arm 14 on the sliding base 13 moves to the lower part of the old furnace roller, the first water pipe 71 can be connected with the water inlet joint 93 on the old furnace roller, then the second water pipe 72 is connected with the water outlet joint 94 on the old furnace roller, the water cooler conveys the cooling water to the water flow channel of the old furnace roller through the first water pipe 71, so that the old furnace roller dissipates heat and cools, and then the cooling water flows back to the water cooler through the second water pipe 72; naturally, the old furnace roller can be cooled after the clamp 6 clamps the old furnace roller according to actual conditions. Because the drag chain 74 can constrain the first water pipe 71 and the second water pipe 72, on one hand, the first water pipe 71 and the second water pipe 72 are arranged neatly and cannot be intertwined with each other, and part of the first water pipe 71 and the second water pipe 72 can smoothly change the bending position along with the movement of the sliding seat 13; on the other hand, the free ends of the first water pipe 71 and the second water pipe 72 can move along with the sliding base 13, so that the old furnace roller is in a cooling state in the working process of drawing the old furnace roller out of the annealing furnace 91, the old furnace roller is prevented from rapidly heating up after being cooled by a water cooling system, and the cooling time of the old furnace roller is shortened better.

Further, as shown in fig. 1, the swing arm driving mechanism 5 includes a first driving motor 51 and a first lead screw lifter 52 which are arranged on the sliding table, the first driving motor 51 is in transmission connection with an input rotating shaft of the first lead screw lifter 52, a lead screw of the first lead screw lifter 52 is vertically arranged, and the top end of the lead screw is hinged to the swing arm 14. That is, the first driving motor 51 drives the input rotating shaft of the first lead screw lifter 52 to rotate, so as to drive the lead screw 521 of the first lead screw lifter 52 to move up and down, and further drive the swing arm 14 to swing.

It should be noted that the first lead screw lifter 52 is a prior art, and mainly includes a lifter main body, a lead screw 521 and a hinge joint arranged at the top of the lead screw, a worm wheel and a worm which are engaged with each other are arranged in the lifter main body, the worm is an input rotating shaft, the worm wheel is fixedly connected with the lead screw, and the first lead screw lifter can be directly purchased from the market, such as an SWL lead screw lifter flying by the shandong army.

Further, referring to fig. 4, the fixture 6 includes a bottom plate 61, a lower chuck 62 fixedly disposed on the bottom plate 61, an upper chuck 63 disposed above the lower chuck 62, and a locking mechanism 64 for clamping the upper chuck 63 and the lower chuck 62, the upper chuck 63 is provided with an upper arc port 631, the lower chuck 62 is provided with a lower arc port 621, during actual clamping, the lower chuck 62 gradually rises along with the swing of the swing arm 14, so that the lower half of the old furnace roller is clamped into the lower arc port 621, then the upper chuck 63 is combined with the lower chuck 62, so that the lower arc port 621 of the lower chuck 62 is combined with the upper arc port of the upper chuck 63 to form a furnace roller clamping port 631, and the old furnace roller passes through the furnace roller clamping port 65; finally, the locking mechanism 64 locks the upper chuck 63 and the lower chuck 62 tightly against each other so that the jigs 6 grip the old furnace bar, and the slide 13, the swing arm 14, and the jigs 6 on the swing arm 14 are moved together in a direction away from the annealing furnace 91 by the slide driving mechanism 4, thereby extracting the old furnace bar from the annealing furnace.

In a preferred embodiment, as shown in fig. 4, the upper jaw 63 is reversible with respect to the lower jaw 62, i.e., the bottom of the upper jaw 63 is rotatably connected to the top of the lower jaw 62. By such an arrangement, the operation is facilitated, and the position where the upper chuck 63 and the lower chuck 62 are combined is ensured to be accurate without displacement.

In a preferred embodiment, as shown in fig. 4, the locking mechanism 64 includes a screw 641 and a pressing head 642, the upper chuck 63 and the lower chuck 62 are provided with an escape groove 643 for the screw 641 to pass through, one end of the screw 641 is pivotally connected to the lower chuck 62, the other end is threadedly connected to the pressing head 642, the pressing head 642 is provided with a handle 644, and the pressing head 642 is driven to rotate by rotating the handle 644 until the pressing head 642 firmly presses the upper chuck 63 against the lower chuck 62.

As shown in fig. 4, in order to facilitate future replacement of the clamp 6 or adjustment of the front and rear positions of the clamp 6, the base plate 61 is connected with the swing arm 14 through screws 66, and a plurality of groups of threaded holes 67 are arranged on the upper surface of the swing arm 14 at intervals along the length direction of the swing arm 14; after the screws 66 are removed, the base plate 61 is moved to a proper position, and then the screws 66 are screwed into the corresponding threaded holes 67 to fix the base plate 61.

As shown in fig. 4, in order to better match with the fixture 6 to support the used furnace roller, a supporting plate 141 is provided on the free end of the swing arm 14, and a supporting arc 142 is provided on the top of the supporting plate 141. After the old furnace roller is pulled out, the old furnace roller is simultaneously supported by the clamp 6 and the supporting plate 141, and the supporting plate 141 bears a part of the gravity of the old furnace roller.

In practical application, the bottoms of the two slide rails 12 are connected through a plurality of connecting plates so as to ensure the overall structural strength of the two slide rails 12 to be parallel to each other; the frame comprises a heightening table 111, a bottom frame 112 for supporting the middle parts of the two slide rails 12, and two side arms 113 respectively arranged at the left side and the right side of the two slide rails 12; a first caster 114 is arranged at the bottom of the bottom frame 112, a second caster 115 is arranged at the bottom of the side arm 113, and the second caster 115 is pressed against the heightening table 111; the slide rail 12 is driven to move left and right by the longitudinal movement driving mechanism 8. By this arrangement, the slide rail 12 and the components on the slide rail 12 can move left and right relative to the ground.

It should be noted that the raising table 111 is fixed, the height of the worker can be made up by the raising table 111, and the worker can better complete the operation of the clamp 6, the water cooling system and the vertical movement driving mechanism 8 after standing on the raising table 111. When the center of the furnace roller clamping opening 65 deviates from the center of the old furnace roller from the left and right, or when a new furnace roller is inserted into the annealing furnace, the new furnace roller can not be aligned with the roller inlet of the annealing furnace, the left and right positions of the fine adjustment slide rail 12 can be aligned through the longitudinal movement driving mechanism 8, and the problem of furnace roller alignment is solved.

Preferably, the longitudinal movement driving mechanism 8 comprises two second lead screw lifters 81 respectively arranged at the left side and the right side of the two slide rails 12, lead screws of the two second lead screw lifters 81 are horizontally arranged and connected through a coupler, lead screw nuts of the two second lead screw lifters 81 are respectively fixedly connected with the two slide rails 12, and input rotating shafts of the two second lead screw lifters 81 are both connected with a hand wheel 82; the lifter bodies of the two second lead screw lifters 81 are fixed on the raising table 111 through the mounting bracket 83.

When the hand wheel 82 of one of the second lead screw lifters 81 is driven to rotate, the lead screw of the second lead screw lifter 81 rotates, and the lead screw of the other first lead screw lifter 52 synchronously rotates under the driving of the coupler, so that the two lead screw nuts move in the same direction, and the two slide rails 12 synchronously move.

In practical applications, to ensure that the first caster 114 and the second caster 115 rotate only in the left-right direction, the first caster 114 is guided by a first rail 116 provided on the floor, and the second caster 115 is guided by a second rail 117 provided on the elevating platform 111, the first rail 116 and the second rail 117 extending in the left-right direction.

Preferably, the base frame 112 is provided with a locking screw 118 facing vertically downwards, and when the longitudinal position of the slide rail is determined, the locking screw is screwed so that the bottom end of the locking screw presses against the first guide rail 116, thereby ensuring that the caster does not self-move.

Preferably, as shown in fig. 2, the slide seat driving mechanism 4 includes a motor mounting bracket 41 disposed on one end of the two slide rails 12, a second driving motor 42 disposed on the motor mounting bracket 41, a driving lead screw 43 disposed between the two slide rails 12, and a lead screw nut sleeved on the driving lead screw 43, and the lead screw nut is fixedly connected to the slide seat 13; one end of the driving screw 43 is rotatably connected with the motor mounting bracket 41; the second driving motor 42 is in transmission connection with a driving screw 43, T-shaped sliding grooves 44 are formed in the inner sides of the two sliding rails 12 along the length direction of the two sliding rails, and the left side and the right side of the sliding base 13 are in sliding connection with the corresponding T-shaped sliding grooves 44 through sliding blocks (not visible in the drawing). Preferably, the slider is configured to fit the T-shaped sliding slot 44, i.e. the slider is T-shaped, so as to ensure that the slider does not separate from the sliding rail 12 during the movement process.

In operation, the second driving motor 42 drives the lead screw 43 to rotate through forward and reverse rotation, so as to drive the lead screw nut and the slide base 13 connected with the lead screw nut to move along the direction guided by the T-shaped sliding groove 44 (i.e. move in the forward and backward directions), and the movement is stable and the movement accuracy is high.

Preferably, as shown in fig. 2, the roller storage frame 2 is divided into a region to be polished 21 and a new roller region 22; the to-be-ground area 21 stores an old furnace roller removed from the jig 6, and the new roller area 22 stores a new furnace roller having completed the nodule grinding process, or a new furnace roller that has not been used. The new and old furnace rollers are separately placed and stored, so that the confusion of workers is avoided, and the recycling is convenient. In order to fix the furnace rod conveniently, the grinding area 21 and the new roller area 22 are provided with positioning plates 23, and each positioning plate is provided with a plurality of positioning grooves 24 for positioning the furnace roller. The cross section of constant head tank is the V style of calligraphy, can fix a position the stove roller of different diameters size.

Preferably, referring to fig. 1, 2 and 5, the furnace roller deburring lathe comprises a worktable 31, a lathe chuck 32 arranged on the worktable 31, a chuck driving mechanism 33 for driving the lathe chuck 32 to rotate, a positioning mechanism 34 for fixing the rotary joint on the furnace roller, and a grinding wheel polishing mechanism 35 for polishing the outer circle of the furnace roller, wherein the grinding wheel polishing mechanism 35 can move along the axial direction of the furnace roller.

When the furnace roller grinding machine works, a worker lifts and transports the old furnace roller to the position above the workbench 31, then the lathe chuck 32 clamps one end of the old furnace roller, the positioning mechanism 34 fixes the rotary joint 92, then the chuck driving mechanism 33 drives the lathe chuck 32 and the old furnace roller to rotate, and meanwhile, the grinding wheel grinding mechanism 35 grinds and removes accretions on the outer circle of the old furnace roller, so that the old furnace roller returns to a good finish degree and becomes a new furnace roller. Through setting up like this, every old stove roller can polish the processing on the spot after unloading, need not to concentrate again and transport to other mills and handle, has saved manufacturing cost greatly. In addition, the new furnace roller after being polished can be cached in the roller storage frame 2 or directly perform roller change work through the roller change device 1, and the new furnace roller is convenient to carry.

Preferably, as shown in fig. 5, the positioning mechanism 34 includes a triangular groove 341 disposed on the rotary joint, and a triangular head 342 in groove fit with the triangular groove, the triangular head is disposed at a piston rod end of a positioning cylinder 343; during positioning, a piston rod of the positioning cylinder 343 extends out, and the rotary joint is fixed through matching occlusion of the triangular head 342 and the triangular groove 341, so that the rotary joint is in a static state when the old furnace roller rotates.

Preferably, referring to fig. 2 and 5, the grinding wheel polishing mechanism 35 includes an electric sliding table 351, a sliding table cylinder 352 disposed on the sliding table of the electric sliding table, a polishing motor 353 disposed on the sliding table cylinder, and a grinding wheel 354 disposed on an output end of the polishing motor. During operation, slip table cylinder 352 drive grinding motor 353 and the emery wheel 354 on the grinding motor are close to stove roller 90, and meanwhile, the axial displacement of old stove roller is followed to the slip table on the electronic slip table 351, drives the emery wheel and polishes the processing to whole stove roller, and the treatment effeciency of polishing is high.

It is understood that equivalent substitutions or changes can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such changes or substitutions shall fall within the scope of the present invention.

Claims (10)

1. The roller changing and polishing system of the annealing furnace is characterized by comprising a roller changing device, a roller storage frame and a furnace roller deburring grinding machine, wherein the roller changing device comprises a rack, two slide rails arranged on the rack in parallel, a slide seat arranged between the two slide rails, a slide seat driving mechanism used for driving the slide seat to move along the length direction of the slide rails, a swing arm rotationally connected with the slide seat, a swing arm driving mechanism arranged on the slide seat and used for driving the swing arm to swing, a clamp arranged on the swing arm and a cooling mechanism used for cooling the furnace roller; the clamp is used for clamping the furnace roller; the furnace roller nodule removing grinding machine is used for removing nodules on the furnace roller; the roller storage frame is used for storing a plurality of furnace rollers.

2. The roll-changing grinding system of the annealing furnace according to claim 1, wherein the cooling mechanism comprises a water-cooling machine, a first water pipe and a second water pipe connected with the water-cooling machine, a tray arranged on one of the slide rails, a drag chain arranged on the tray, and a bracket arranged on the slide carriage; one end of the drag chain is fixedly connected with the bracket, and the other end of the drag chain is fixedly connected with the tray; and part of the first water pipe and the second water pipe are arranged on the drag chain in parallel.

3. The roll-changing grinding system of the annealing furnace as claimed in claim 1, wherein the swing arm driving mechanism comprises a first driving motor and a first lead screw lifter, the first driving motor is arranged on the sliding table, the first driving motor is in transmission connection with an input rotating shaft of the first lead screw lifter, a lead screw of the first lead screw lifter is vertically arranged, and the top end of the lead screw is hinged with the swing arm.

4. The roll-changing grinding system of an annealing furnace according to claim 1, wherein the clamp comprises a bottom plate, a lower chuck fixedly arranged on the bottom plate, an upper chuck arranged above the lower chuck, and a locking mechanism for clamping the upper chuck and the lower chuck, the upper chuck is provided with an upper arc opening, the lower chuck is provided with a lower arc opening, and the upper arc opening and the lower arc opening can be combined to form a furnace roll clamping opening.

5. The annealing furnace roll-changing grinding system according to claim 4, wherein the bottom plate is connected with the swing arm through screws, and the upper surface of the swing arm is provided with a plurality of groups of threaded holes which are arranged at intervals along the length direction of the swing arm; the free end of the swing arm is provided with a bearing plate, and the top of the bearing plate is provided with a bearing arc opening.

6. The annealing furnace roll-changing grinding system according to claim 1, wherein the frame comprises a cushion elevation platform, a bottom frame for supporting the middle parts of the two slide rails, and two side arms respectively arranged at the left side and the right side of the two slide rails; the bottom of the underframe is provided with a first caster, the bottom of the side arm is provided with a second caster, and the second caster is pressed on the padding table; the slide rail is driven to move left and right by the longitudinal movement driving mechanism.

7. The roll-changing polishing system of the annealing furnace as claimed in claim 6, wherein the longitudinal movement driving mechanism comprises two second lead screw lifters respectively arranged at the left and right sides of the two slide rails, lead screws of the two second lead screw lifters are horizontally arranged and connected through a coupling, lead screw nuts of the two second lead screw lifters are respectively fixedly connected with the two slide rails, and input rotating shafts of the two second lead screw lifters are both connected with a hand wheel; the lifter main bodies of the two second screw rod lifters are fixed on the heightening table through the mounting frame.

8. The roll-changing grinding system of the annealing furnace according to claim 1, wherein the slide seat driving mechanism comprises a motor mounting bracket arranged at one end of the two slide rails, a second driving motor arranged on the motor mounting bracket, a driving screw arranged between the two slide rails, and a screw nut sleeved on the driving screw, and the screw nut is fixedly connected with the slide seat; the second driving motor is in transmission connection with the driving lead screw; t-shaped sliding grooves are formed in the inner sides of the two sliding rails along the length direction of the sliding rails, and the left side and the right side of each sliding seat are connected with the corresponding T-shaped sliding grooves in a sliding mode through sliding blocks.

9. The annealing furnace roll-changing grinding system according to claim 1, characterized in that the roll storage rack is divided into a grinding area to be ground and a new roll area; treat that polishing district and new roller district all are equipped with the locating plate, offer the constant head tank that a plurality of is used for fixing a position the stove roller on every locating piece.

10. The annealing furnace roll-changing grinding system according to claim 1, wherein the furnace roll deburring grinding machine comprises a worktable, a lathe chuck arranged on the worktable, a chuck driving mechanism for driving the lathe chuck to rotate, a positioning mechanism for fixing the rotary joint on the furnace roll, and a grinding wheel grinding mechanism for grinding the outer circle of the furnace roll, and the grinding wheel grinding mechanism can move along the axial direction of the furnace roll.

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