CN114606372A

CN114606372A - Industrial automation production equipment

Info

Publication number: CN114606372A
Application number: CN202210203443.5A
Authority: CN
Inventors: 陈成瑞; 钱雅楠; 余枚姣; 李新梁
Original assignee: Chongqing Institute of Engineering
Current assignee: Chongqing Institute of Engineering
Priority date: 2022-03-03
Filing date: 2022-03-03
Publication date: 2022-06-10

Abstract

The invention belongs to the technical field of gear machining, and particularly relates to industrial automatic production equipment which comprises a circular table and an induction coil, wherein the circular table is provided with a mounting bracket, the mounting bracket is provided with a cylinder, the mounting bracket is provided with a motor, and the circular table is connected with a placing mechanism; the placing mechanism comprises a mounting rod, the mounting rod is provided with a rectangular plate, the rectangular plate is provided with a rotating shaft, the rotating shaft is provided with a placing disc, the placing disc is provided with a positioning block, the mounting rod is provided with a turning assembly, and the placing disc is provided with a rotating assembly; the overturning assembly comprises a sliding rod, the sliding rod is provided with a cross rod, the cross rod is provided with a rack, the mounting rod is provided with a first gear, the cylinder is provided with a first guide ring groove, and the sliding rod is provided with a first guide block; the rotating assembly comprises a second gear, the rectangular plate is provided with a gear ring, and the cylinder is provided with an incomplete gear; structural design is ingenious, easy operation, only need with the gear place on placing the dish can, can avoid the workman to contact the gear after joining, prevent that the workman from being scalded, realize automatic operation.

Description

Industrial automation production equipment

Technical Field

The invention belongs to the technical field of gear machining, and particularly relates to industrial automatic production equipment.

Background

At present, most gears are made of carbon structural steel, the rigidity, hardness, wear resistance, fatigue strength, toughness and the like of steel are greatly improved by quenching treatment in the process of machining and manufacturing the gears, so that the use requirements of the gears are met, the existing quenching device generally changes the ferrite structure by placing the gears in an induction coil for heating and then placing the gears in cooling liquid for rapid cooling, a single gear needs to be placed in the induction coil manually and intermittently by a worker in the quenching operation process, the heated worker takes the gears out of quenching equipment by using a clamp or other parts and places the gears in the cooling liquid for cooling, the operation speed is slow in the process, the production efficiency is low, and the temperature of the quenching equipment is high during working, so that hands of the worker are easily scalded.

Disclosure of Invention

The purpose of the invention is: the industrial automatic production equipment is ingenious in structural design and simple to operate, only the gear needs to be placed on the placing disc, workers can be prevented from contacting the added gear, the workers are prevented from being scalded, the quenching speed is high, and the production efficiency is high; the gear which is heated can be automatically placed into the cooling liquid to finish quenching work, and meanwhile, the gear which is quenched can be conveyed out of the circular table, so that automatic operation is realized.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

an industrial automatic production device comprises a hollow circular table with an opening at the upper end and an induction coil arranged on the front side of the upper end of the circular table, wherein the upper end of the circular table is connected with a mounting bracket, a cylinder is rotatably assembled between the mounting bracket and the inner bottom of the circular table, the upper side of the mounting bracket is connected with a motor, an output shaft of the motor penetrates through the mounting bracket and is in transmission connection with the cylinder, and the circular table is connected with a placing mechanism;

the placing mechanism comprises an installing rod which is rotatably assembled on the side wall of the circular truncated cone, a rectangular plate is fixedly connected to one side of the installing rod, a rotating shaft is rotatably assembled in the middle of the rectangular plate, a placing disc is connected to the upper end of the rotating shaft, a positioning block is connected to the middle of the placing disc, the placing disc corresponds to the induction coil in position, the installing rod is provided with a turning assembly, and the placing disc is provided with a rotating assembly;

the overturning assembly comprises a sliding rod vertically assembled on the side face of the circular platform in a sliding mode, one side, close to the induction coil, of the sliding rod is connected with a cross rod, the cross rod is fixedly connected with a rack, the mounting rod is fixedly connected with a first gear, the first gear is meshed with the rack in a matching mode, a first guide ring groove is formed in the side face of the cylinder, one end, close to the middle of the circular platform, of the sliding rod is connected with a first guide block, the first guide block is assembled in the first guide ring groove in a sliding mode, the first guide ring groove comprises a first upper sliding groove, a first lower sliding groove and two first spiral sliding grooves, the first upper sliding groove and the first lower sliding groove are horizontally arranged, and two ends of the first upper sliding groove and two ends of the first lower sliding groove are communicated through the two first spiral grooves respectively;

the runner assembly is including rotating the second gear of assembly in the rectangular plate downside, the pivot lower extreme runs through the rectangular plate with second gear drive connects, the rectangular plate downside still rotates and is equipped with the ring gear, the ring gear is equipped with internal tooth and external tooth, the second gear with the internal toothing of ring gear matches, cylinder upside fixedly connected with is incomplete gear, incomplete gear with the external tooth phase-match of ring gear.

The side face of the circular truncated cone is provided with a limiting sliding groove, the end part of the sliding rod is connected with a limiting sliding block, and the limiting sliding block is assembled in the limiting sliding groove in a sliding mode.

The cylinder is connected with receiving mechanism, receiving mechanism is including fixed setting the bottom plate of cylinder side, the bottom plate with round platform bottom butt, just the bottom plate is located first spout below, the bottom plate upside is connected with two multi-stage telescopic rod, two multi-stage telescopic rod upper end is connected with the loading board jointly, the loading board upper end is connected with connects the material seat, it has the inclined plane to connect material seat upside processing, the inclined plane from high to low to the slope of round platform lateral wall, the round platform medial surface is equipped with second direction annular, the loading board is kept away from cylinder one end is connected with the second guide block, the assembly of second guide block slip is in the second direction annular.

The second direction annular includes spout, second lower spout and two second helicla flutes on the second, on the second spout with the equal level of spout sets up, two under the second the both ends and two of spout are gone up to the second the both ends of spout are respectively through two under the second helicla flute intercommunication, the second lower spout is located the rectangular plate below.

The upper end of the circular truncated cone is provided with a groove, the groove corresponds to the second upper chute in position, and the circular truncated cone is connected with a blanking guide rail located outside the groove.

One side of the cylinder, which is far away from the bottom plate, is connected with a stirring blade.

And a liquid discharge pipe is arranged on one side of the circular truncated cone and is provided with a valve.

The gear quenching device is ingenious in structural design and simple to operate, only the gear needs to be placed on the placing disc, workers can be prevented from contacting the added gear, the workers are prevented from being scalded, the quenching speed is high, and the production efficiency is high; the gear which is heated can be automatically placed into the cooling liquid to finish quenching work, and meanwhile, the gear which is quenched can be conveyed out of the circular table, so that automatic operation is realized.

Drawings

The invention is further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a first schematic structural diagram of an industrial automation production apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of an industrial automation production apparatus of the present invention;

FIG. 3 is a schematic cross-sectional view of an industrial automation production apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic sectional view of an industrial automation production apparatus according to an embodiment of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

FIG. 6 is a schematic cross-sectional view of an industrial automation production apparatus according to an embodiment of the present invention;

FIG. 7 is a schematic view of the rotating assembly of the present invention;

fig. 8 is a schematic structural diagram of the flip assembly of the present invention.

The device comprises a circular table 1, an induction coil 11, a mounting bracket 12, a cylinder 13, a motor 14, a mounting rod 2, a rectangular plate 21, a placing disc 22, a positioning block 221, a sliding rod 3, a limiting sliding groove 301, a limiting sliding block 302, a cross rod 31, a rack 32, a first gear 33, a first upper sliding groove 341, a first lower sliding groove 342, a first spiral sliding groove 343, a first guide block 35, a second gear 4, a gear ring 41, an incomplete gear 42, a bottom plate 5, a multi-stage telescopic rod 51, a bearing plate 52, a material receiving seat 53, a second upper sliding groove 541, a second lower sliding groove 542, a second spiral groove 543, a second guide block 55, a slot 6, a blanking guide rail 61, a stirring blade 62, a liquid discharge pipe 7 and a valve 71.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in fig. 1-8, the industrial automatic production equipment of the present invention includes a hollow circular table 1 with an open upper end and an induction coil 11 disposed at the front side of the upper end of the circular table 1, the upper end of the circular table 1 is connected with a mounting bracket 12, a cylinder 13 is rotatably assembled between the mounting bracket 12 and the inner bottom of the circular table 1, the upper side of the mounting bracket 12 is connected with a motor 14, an output shaft of the motor 14 penetrates through the mounting bracket 12 to be in transmission connection with the cylinder 13, and the circular table 1 is connected with a placing mechanism;

the placing mechanism comprises a mounting rod 2 which is rotatably assembled on the side wall of the circular truncated cone 1, one side of the mounting rod 2 is fixedly connected with a rectangular plate 21, the middle part of the rectangular plate 21 is rotatably assembled with a rotating shaft, the upper end of the rotating shaft is connected with a placing disc 22, the middle part of the placing disc 22 is connected with a positioning block 221, the placing disc 22 corresponds to the induction coil 11 in position, the mounting rod 2 is provided with an overturning assembly, and the placing disc 22 is provided with a rotating assembly;

the overturning assembly comprises a sliding rod 3 vertically assembled on the side surface of the circular truncated cone 1 in a sliding mode, one side, close to the induction coil 11, of the sliding rod 3 is connected with a cross rod 31, the cross rod 31 is fixedly connected with a rack 32, the mounting rod 2 is fixedly connected with a first gear 33, the first gear 33 is meshed and matched with the rack 32, a first guide ring groove is formed in the side surface of the cylinder 13, one end, close to the middle of the circular truncated cone 1, of the sliding rod 3 is connected with a first guide block 35, the first guide block 35 is assembled in the first guide ring groove in a sliding mode, the first guide ring groove comprises a first upper sliding groove 341, a first lower sliding groove 342 and two first spiral sliding grooves 343, the first upper sliding groove 341 and the first lower sliding groove 342 are arranged horizontally, and two ends of the first upper sliding groove 341 are communicated with two ends of the first lower sliding groove 342 through the two first spiral grooves 343;

the rotating assembly comprises a second gear 4 which is rotatably assembled on the lower side of the rectangular plate 21, the lower end of the rotating shaft penetrates through the rectangular plate 21 to be in transmission connection with the second gear 4, the lower side of the rectangular plate 21 is further rotatably assembled with a gear ring 41, the gear ring 41 is provided with inner teeth and outer teeth, the second gear 4 is meshed with the inner teeth of the gear ring 41 to be matched, an incomplete gear 42 is fixedly connected to the upper side of the cylinder 13, and the incomplete gear 42 is matched with the outer teeth of the gear ring 41.

When the device is used, the device is externally connected with a power supply, in an initial state, the first guide block 35 connected with the slide rod 3 is positioned in the first upper chute 341, the rectangular plate 21 is in a horizontal state, the incomplete gear 42 is meshed and matched with the external teeth of the gear ring 41, a worker firstly adds a certain amount of cooling liquid into the circular truncated cone 1, then places the gear to be quenched on the rectangular plate 21, positions the gear through the positioning block 221 so that the gear is positioned at the center of the induction coil 11, and starts the induction coil 11 to heat the gear;

starting a motor 14 fixedly arranged on a mounting bracket 12, wherein the motor 14 drives a cylinder 13 rotatably assembled between the mounting bracket 12 and the bottom of a circular truncated cone 1 to slowly rotate, the rotation direction of the cylinder is anticlockwise rotation, namely, an incomplete gear 42 fixed on the cylinder 13 starts to rotate, the incomplete gear 42 drives a gear ring 41 to start to rotate due to the engagement of the incomplete gear 42 and the external teeth of the gear ring 41 rotatably assembled on the lower side of a rectangular plate 21, and the second gear 4 rotatably assembled on the lower side of the rectangular plate 21 is engaged with the inner side of the gear ring 41, so that the gear ring 41 drives a second gear 4 to rotate, the second gear 4 drives a placing plate 22 to rotate through a rotating shaft, the gear placed on the placing plate 22 is rotated, the gear is uniformly heated, and the number of teeth of the second gear 4 is far smaller than that of the internal teeth of the gear ring 41, therefore, the gear ring 41 can drive the second gear 4 to rotate for several circles after rotating for half a circle, so that the gears on the placing disc 22 can rotate for several circles, the gear heating effect is better, when the cylinder 13 rotates anticlockwise, the first guide block 35 connected with the slide rod 3 slides in the first upper chute 341, the slide rod 3 keeps the same horizontal height, namely the rack 32 does not move up and down, the mounting rod 2 can be kept not to rotate, and the rectangular plate 21 is enabled not to rotate;

before the first guide block 35 connected with the slide bar 3 enters the first spiral groove 343, the incomplete gear 42 will be disengaged from the outer teeth of the gear ring 41, so that the cylinder 13 continues to rotate, the first guide block 35 connected with the slide bar 3 enters the first spiral groove 343, at this time, the first guide block 35 will move downwards in the first spiral groove 343, so that the slide bar 3 moves downwards, so that the rack 32 is driven by the cross bar 31 to move downwards when the slide bar 3 moves downwards, because the rack 32 is meshed and matched with the first gear 33, the first gear 33 will be driven to rotate when the rack 32 moves downwards, so that the mounting rod 2 will be turned downwards, the placing plate 22 on the rectangular plate 21 will be driven to turn downwards, the heated gear will follow the placing plate 22 to rotate downwards, the gear will be hung on the placing plate 22 by the positioning block 221, and when the cylinder 13 continues to rotate to the lowest end of the first spiral groove 343, the gear will enter the first lower chute 342, at the moment, the rotating angle of the placing disc 22 is larger than 90 degrees, namely, the gear falls into the cooling liquid at the bottom of the circular truncated cone 1 through self weight to be cooled, so that quenching work is completed, workers are prevented from contacting the heated gear, and the workers are prevented from being scalded;

after the gear falls into the cooling liquid, the first guide block 35 slides into another first spiral groove 343 in the first lower chute 342, and the length of the first lower chute 342 is much smaller than that of the first upper chute 341, so that the sliding distance of the first guide block 35 in the first lower chute 342 can be reduced;

after the first guide block 35 enters the other first spiral groove 343, the first guide block 35 will move upward, i.e. the slide rod 3 will be driven to move upward, the rectangular plate 21 will be driven to turn upward by the engagement of the rack 32 and the first gear 33, when the first guide block 35 moves to the end of the first spiral groove 343, i.e. the end of the first upper chute 341, the rectangular plate 21 will be restored to the horizontal state at this time, the first gear ring 41 will also be restored to the horizontal state, and at this time, the worker can place a new gear on the placing tray 22;

when the cylinder 13 continues to rotate, the first guide block 35 will move in the first upper chute 341, and the incomplete gear 42 connected to the cylinder 13 will gradually mesh with the external teeth of the gear ring 41, so as to drive the placing disc 22 to continue to rotate, so as to uniformly heat the gear;

the gear quenching device is ingenious in structural design and simple to operate, only the gear needs to be placed on the placing disc, workers can be prevented from contacting the added gear, the workers are prevented from being scalded, the quenching speed is high, and the production efficiency is high.

The side surface of the circular truncated cone 1 is provided with a limiting sliding groove 301, the end part of the sliding rod 3 is connected with a limiting sliding block 302, and the limiting sliding block 302 is assembled in the limiting sliding groove 301 in a sliding manner; therefore, the sliding rod 3 slides in the limiting sliding groove 301 through the limiting sliding block 302 to limit the sliding rod 3, so that the sliding rod 3 can only slide up and down.

The cylinder 13 is connected with a material receiving mechanism, the material receiving mechanism comprises a bottom plate 5 fixedly arranged on the side surface of the cylinder 13, the bottom plate 5 is abutted against the bottom of the circular truncated cone 1, the bottom plate 5 is positioned below the first lower chute 342, the upper side of the bottom plate 5 is connected with two multi-stage telescopic rods 51, the upper ends of the two multi-stage telescopic rods 51 are commonly connected with a bearing plate 52, the upper end of the bearing plate 52 is connected with a material receiving seat 53, the upper side of the material receiving seat 53 is processed with an inclined surface, the inclined surface inclines towards the side wall of the circular truncated cone 1 from high to low, the inner side surface of the circular truncated cone 1 is provided with a second guide ring groove, one end, away from the cylinder 13, of the bearing plate 52 is connected with a second guide block 55, and the second guide block 55 is assembled in the second guide ring groove in a sliding manner; the second guide ring groove comprises a second upper sliding groove 541, a second lower sliding groove 542 and two second spiral grooves 543, the second upper sliding groove 541 and the second lower sliding groove 542 are both horizontally arranged, two ends of the two second upper sliding grooves 541 are respectively communicated with two ends of the two second lower sliding grooves 542 through the two second spiral grooves 543, and the second lower sliding groove 542 is located below the rectangular plate 21; the upper end of the circular truncated cone 1 is provided with a slot 6, the slot 6 corresponds to the second upper chute 541 in position, and the circular truncated cone 1 is connected with a blanking guide rail 61 positioned outside the slot 6;

the bottom plate 5 is located below the first lower chute 342, that is, the material receiving seat 53 corresponds to the first lower chute 342, and the second lower chute 542 is located below the rectangular plate 21, so when the first guide block 35 is located in the first lower chute 342, the material receiving seat 53 is located right below the rectangular plate 21, and the material receiving seat 53 is located at the lowest position; thus, when the first guide block 35 moves in the first spiral groove 343 to drive the rectangular plate 21 to turn downward, the gear is always hung on the placing tray 22 through the positioning block 221, and at this time, the second guide block 55 moves downward in the second spiral groove 543 to make the bearing plate 52 move downward, i.e. to drive the receiving seat 53 to gradually move downward, when the first guide block 35 moves to the lower end of the first spiral groove 343, i.e. the end of the first lower chute 342, at this time, the second guide block 55 is located in the second lower chute 542, the rectangular plate 21 turns to the lowest side, and the turning angle of the rectangular plate 21 is greater than ninety degrees, because the side surface of the positioning block 221 is smooth, the gear will slide downward due to its own weight, the positioning block 221 will not block the gear, so that the gear will fall downward and completely separate from the placing tray 22, and at the same time, the second guide block 55 is located in the second lower chute 542, i.e. the receiving seat 53 will be located below the placing tray 22, therefore, the gear falls onto the receiving seat 53 positioned below through the cooling liquid, because the inclined plane processed on the receiving seat 53 inclines towards the side wall of the circular truncated cone 1 from high to low, the gear falling on the upper side of the receiving seat 53 moves towards the side surface of the circular truncated cone 1 until the gear abuts against the inner side surface of the circular truncated cone 1, the cylinder 13 continues to rotate, the second guide block 55 enters into the other second spiral groove 543, the second guide block 55 moves upwards along the second spiral groove 543, namely the receiving seat 53 gradually moves up and down until moving out of the cooling liquid, after the second guide block 55 enters into the second upper slide groove, the lower end of the receiving seat 53 gradually approaches to the open groove 6, when the receiving seat 53 is aligned with the open groove 6, the gear loses the blocking of the side wall of the circular truncated cone 1, slides downwards at the open groove 6 due to self weight, slides downwards through the guide rail 61, and a worker only needs to place a collecting box at the end of the discharging guide rail 61 for collecting, thereby the gear heating back, drop to in the coolant liquid, finally drop to connect the material seat 53 on, take out the coolant liquid through the gear that connects the material seat 53 to accomplish the quenching, shift out the round platform 1 through unloading guide rail 61 the gear after will accomplishing the quenching at last in, realize the automatic unloading to the gear that the quenching was accomplished, the quenching speed is fast, and production efficiency is high, has avoided the gear after the workman contact heating, prevents that the workman from scalding.

One side of the cylinder 13 far away from the bottom plate 5 is connected with a stirring blade 62; thus, when the cylinder 13 rotates, the stirring blade 62 can be driven to rotate, so that the cooling liquid in the circular truncated cone 1 can be driven to move, and the temperature in the cooling liquid is uniform.

One side of the circular truncated cone 1 is provided with a liquid discharge pipe 7, and the liquid discharge pipe 7 is provided with a valve 71; when the coolant in the circular truncated cone 1 is replaced, the valve 71 can be opened to discharge the coolant through the drain pipe 7, so that the coolant can be replaced conveniently.

The bottom of the receiving seat 53 is provided with a plurality of through grooves 531 which are uniformly distributed; the gear bottom also can contact with the coolant liquid like this, and the material seat 53 that connects moves upward simultaneously leaves the coolant liquid after, and the coolant liquid that connects in the material seat 53 can drop through logical groove 531, drains the gear.

The foregoing embodiments are merely illustrative of the principles of the present invention and its efficacy, and are not to be construed as limiting the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims

1. The utility model provides an industrial automation production facility, is in including inside cavity and upper end open-ended round platform and setting the induction coil of round platform upper end front side, its characterized in that: the upper end of the circular truncated cone is connected with an installation support, a cylinder is rotatably assembled between the installation support and the inner bottom of the circular truncated cone, the upper side of the installation support is connected with a motor, an output shaft of the motor penetrates through the installation support to be in transmission connection with the cylinder, and the circular truncated cone is connected with a placing mechanism;

the runner assembly is including rotating the second gear of assembly in the rectangular plate downside, the pivot lower extreme runs through the rectangular plate with second gear drive is connected, the rectangular plate downside still rotates and is equipped with the ring gear, the ring gear is equipped with internal tooth and external tooth, the second gear with the internal tooth meshing of ring gear matches, cylinder upside fixedly connected with incomplete gear, incomplete gear with the external tooth phase-match of ring gear.

2. An industrial automation production facility according to claim 1 characterised in that: the side face of the circular truncated cone is provided with a limiting sliding groove, the end part of the sliding rod is connected with a limiting sliding block, and the limiting sliding block is assembled in the limiting sliding groove in a sliding mode.

3. An industrial automation production facility according to claim 1 characterised in that: the cylinder is connected with receiving mechanism, receiving mechanism is including fixed setting the bottom plate of cylinder side, the bottom plate with round platform bottom butt, just the bottom plate is located first spout below, the bottom plate upside is connected with two multi-stage telescopic rod, two multi-stage telescopic rod upper end is connected with the loading board jointly, the loading board upper end is connected with connects the material seat, it has the inclined plane to connect material seat upside processing, the inclined plane from high to low to the slope of round platform lateral wall, the round platform medial surface is equipped with second direction annular, the loading board is kept away from cylinder one end is connected with the second guide block, the assembly of second guide block slip is in the second direction annular.

4. An industrial automation production facility according to claim 3, characterised in that: the second direction annular includes spout, second lower spout and two second helicla flutes on the second, on the second spout with the equal level of spout sets up, two under the second the both ends and two of spout are gone up to the second the both ends of spout are respectively through two under the second helicla flute intercommunication, the second lower spout is located the rectangular plate below.

5. An industrial automation production facility according to claim 4, characterized in that: the upper end of the circular truncated cone is provided with a groove, the groove corresponds to the second upper chute in position, and the circular truncated cone is connected with a blanking guide rail located outside the groove.

6. An industrial automation production facility according to claim 5, characterized in that: one side of the cylinder, which is far away from the bottom plate, is connected with a stirring blade.

7. An industrial automation production facility according to claim 1 characterised in that: and a liquid discharge pipe is arranged on one side of the circular truncated cone and is provided with a valve.