CN220005515U - Efficient spiral plate manufacturing device - Google Patents

Abstract

The utility model relates to the technical field of component processing, and aims to solve the problems of material waste, high cost of manpower and material resources and high welding workload in the prior art, and provides a high-efficiency spiral plate manufacturing device which comprises a workbench; the top surface of the workbench is provided with a roller mechanism and a slidable moving mechanism which are matched with each other; the roller mechanism is provided with a first main roller and a second main roller, the first main roller is sleeved with a first fixed shaft, and the first main roller is fixed at the top end of the first main roller; the second main roller is sleeved with a second fixed shaft, and the second main roller is fixed at the top end of the second main roller; the lower part of the workbench is provided with a first driving device which drives the first main roller and the second main roller; the moving mechanism is provided with a sliding plate which can slide, the sliding plate is provided with a slave roller, and the slave roller, the first main roller and the second main roller are distributed in a mutually triangular mode; the first main roller, the second main roller and the auxiliary roller are all inner groove type idler wheels. The utility model has the advantages of less material waste, low cost of manpower and material resources and small welding workload.

Description

Efficient spiral plate manufacturing device

Technical Field

The utility model relates to the technical field of member processing, in particular to a high-efficiency spiral plate manufacturing device.

Background

The jacket container is widely applied in the fields of petrochemical industry, medicine and the like, and steam or cooling water is moved in the jacket to heat or cool the container and materials in the container, so as to meet the production process requirement. In order to improve the heat exchange effect, a spiral guide plate is welded on the inner cylinder, so that a medium in the jacket runs in the spiral guide channel, the distance is prolonged, heat transfer is better performed, and the utilization rate of the medium heat is improved.

Meanwhile, the spiral guide plate has a reinforcing effect on the inner cylinder, so that the outer pressure of the inner cylinder due to the bearing of jacket medium can be reduced, the thickness of the wall plate of the inner cylinder is reduced, and the safety of equipment operation is improved.

The existing mode firstly, the material waste is easy to cause, more leftover materials are discarded when the radian required by the structure is achieved, a large amount of material waste is caused, meanwhile, the diameter of a jacket container is usually more than 1 meter, the inner diameter of a spiral plate is larger, in order to reduce the splicing workload, a wider plate is required to be used for cutting when the material is discharged, and the utilization rate of the plate is lower; secondly, a large amount of manpower and material resources are consumed in the blanking process, no matter a manual blanking or plasma cutting mode is adopted, larger workload is generated in the blanking process, more energy is consumed, more time is needed to polish burrs and the like on the edges after the blanking process, and the damage to constructors caused by subsequent procedures is prevented; thirdly, the welding workload is large, and each section of arc plate cannot be too long because of improving the material utilization rate when the blanking is adopted, and each section of arc plate needs to be spliced in a welding mode, so that a large amount of manpower and material resources are wasted.

Disclosure of Invention

The utility model aims to provide a high-efficiency spiral plate manufacturing device so as to solve the problems of material waste, high cost of manpower and material resources and high welding workload in the prior art.

Embodiments of the present utility model are implemented as follows:

the embodiment of the utility model provides a high-efficiency spiral plate manufacturing device, which comprises a workbench;

the top surface of the workbench is provided with a moving mechanism and a roller mechanism, the moving mechanism is matched with the roller mechanism, and the moving mechanism is slidably arranged on the top surface of the workbench;

the roller mechanism is provided with a first main roller and a second main roller, and the first main roller and the second main roller are parallel and are arranged at intervals;

a first fixed shaft is arranged at the center of the first main roller, the first fixed shaft vertically penetrates through the workbench along the axis of the first main roller, and the first main roller is fixed at the top end of the first main roller;

a second fixed shaft is arranged at the center of the second main roller, the second fixed shaft vertically penetrates through the workbench along the axis of the second main roller, and the second main roller is fixed at the top end of the second main roller;

a first driving device is arranged at the lower part of the workbench, main gears are fixedly connected to the bottom ends of the first fixed shaft and the second fixed shaft, the main gears of the first fixed shaft and the second fixed shaft are mutually meshed for transmission, and the first driving device is connected with the main gears in a transmission way;

the moving mechanism is provided with a sliding plate which can slide, the top surface of the sliding plate is provided with a slave roller, the first main roller and the second main roller are distributed in a mutually triangular mode, a third fixed shaft is arranged at the center of the slave roller, the third fixed shaft is vertically and fixedly connected with the sliding plate along the axis of the slave roller, and the slave roller is rotatably sleeved on the third fixed shaft;

the first main roller, the second main roller and the auxiliary roller are all inner groove type rollers.

When the rolling device is used, the rectangular steel strip is placed between the first main roller and the second main roller and is tightly attached to the auxiliary roller, the auxiliary roller is driven to downwards press by the sliding plate in the moving mechanism, and the first driving device drives the first main roller and the second main roller to rotate clockwise or anticlockwise to repeatedly roll the rectangular steel strip, and finally the rectangular steel strip is rolled into a circular ring.

The embodiment discloses a high-efficient spiral plate manufacturing installation is owing to set up above-mentioned first home roll, above-mentioned second home roll and above-mentioned follow roller as the indent gyro wheel, by the coil steel sheet place between first home roll and above-mentioned second home roll and above-mentioned follow roller, make above-mentioned follow roller move down through the screw rod, compress tightly by the coil steel sheet, after the steel sheet is fixed, start first drive arrangement, start the coiling, after rolling up to the radian of needs, take out the finished product, and then make a high-efficient spiral plate manufacturing installation have difficult material waste, low in cost of manpower and materials, welding workload is little beneficial effect.

Optionally: a first groove is formed in the inner wall of the first main roller, the first groove extends along the axial direction of the first main roller, a second groove is formed in the outer wall of the first fixed shaft, the second groove extends along the axial direction of the first fixed shaft, the first groove corresponds to the second groove, a first embedded block is embedded in the first groove and the second groove which are aligned, and the first embedded block is tightly embedded in the first groove and the second groove which are aligned;

a third groove is formed in the inner wall of the second main roller, the third groove extends along the axial direction of the second main roller, a fourth groove is formed in the outer wall of the second fixing shaft, the fourth groove extends along the axial direction of the second fixing shaft, the third groove corresponds to the fourth groove, second embedded blocks are embedded in the aligned third groove and fourth groove, and the second embedded blocks are tightly embedded in the aligned third groove and fourth groove.

So set up, be connected through above-mentioned first embedded block between above-mentioned first main roll and the above-mentioned first fixed axle, the effectual technical effect that realizes above-mentioned first main roll and above-mentioned first fixed axle are fixed each other, and be connected through above-mentioned second embedded block between above-mentioned second main roll and the above-mentioned second fixed axle, be convenient for equally realize the technical effect that above-mentioned second main roll and above-mentioned second fixed axle are fixed each other, and then guaranteed that above-mentioned first main roll rotates with above-mentioned first fixed axle, the above-mentioned second main roll rotates with above-mentioned second fixed axle, the dismouting of above-mentioned first main roll and above-mentioned second main roll of still being convenient for simultaneously, the later maintenance of being convenient for, the effectual life who prolongs the device.

Optionally: the first driving device is provided with a main roller motor and a main roller gearbox, the main roller motor is in transmission connection with the main roller gearbox, the main roller gearbox is provided with a rotatable first output shaft, the outer end of the first output shaft is fixedly connected with a rotary gear, and the rotary gear is in meshing connection with the main gear.

The main roller motor can drive the output shaft of the main roller gearbox to rotate through clockwise or anticlockwise rotation, so that the main gear is conveniently driven to rotate through the rotary gear at the outer end of the first output shaft, and then the first main roller and the second main roller are driven to rotate.

Optionally: the moving mechanism further comprises a second driving device, a screw is arranged between the second driving device and the sliding plate, one end of the screw is connected with the sliding plate, and the other end of the screw is connected with the second driving device.

The arrangement of the screw rod is convenient for transmitting the power of the second driving device to the sliding plate, and the sliding plate is convenient to control to realize the sliding technical effect.

Optionally: the second driving device is provided with a slide motor, the output end of the slide motor is in transmission connection with a slide gearbox, the slide gearbox is provided with a rotatable second output shaft, and the other end of the screw rod is detachably and fixedly connected to the second output shaft.

The power output by the slide plate motor can be changed through the slide plate gearbox, and the slide plate can slide forwards or backwards due to the fact that the slide plate does not need to slide at a high speed but slides slowly, so that the slide plate gearbox can better adjust the power output by the slide plate motor, and the slide plate motor can rotate clockwise or anticlockwise.

Optionally: the bottom of the sliding plate is provided with a first sliding rail and a second sliding rail, the first sliding rail is parallel to the second sliding rail, and the first sliding rail and the second sliding rail are fixed on the workbench.

So set up, above-mentioned first slide rail and above-mentioned second slide rail are favorable to the removal of above-mentioned slide, still have the effect of direction simultaneously, have restricted the slip direction of above-mentioned slide, and then have ensured the quality after the machined part processing.

Optionally: the bottom surface of the sliding plate is provided with an annular sliding seat, the inner hole wall of the annular sliding seat is provided with external threads matched with the screw rod, and one end of the screw rod is rotatably connected with the annular sliding seat through threads.

The arrangement of the annular sliding seat is convenient for the sliding plate to be matched with the screw rod, and meanwhile, the screw rod is convenient for driving the sliding plate to slide back and forth.

Optionally: the front and rear ends of the sliding plate in the sliding direction are respectively provided with a front travel switch and a rear travel switch, and the front travel switch and the rear travel switch are positioned above the sliding rail and fixedly connected with the sliding plate;

the front travel switch and the rear travel switch are electrically connected with the slide plate motor.

Through the arrangement, the front travel switch and the rear travel switch are contacted with the sliding rail, so that the sliding plate is ensured to slide on the limited first sliding rail and second sliding rail, equipment is not damaged, and operation safety is ensured.

Optionally: and a plurality of orientation wheels are respectively and fixedly connected to the bottom surface of the sliding plate.

The plurality of orientation wheels can effectively assist the sliding plate to slide on the first sliding rail and the second sliding rail.

Optionally: the workbench is provided with a plurality of support columns, the top ends of the support columns are vertically and fixedly connected to the workbench, the first driving device is detachably fixed on the inner side of the support columns, and the second driving device is detachably fixed on the outer side of the support columns.

So set up, a plurality of above-mentioned support columns can effectually support above-mentioned workstation for the bottom surface is kept away from to the workstation, and the workman is also comparatively laborsaving when processing the component of waiting to process simultaneously, and also makes things convenient for above-mentioned first drive arrangement and above-mentioned second drive arrangement's arrangement, makes the structure of whole device comparatively compact, and it is comparatively convenient to remove or transport.

By combining the above description, the efficient spiral plate manufacturing device disclosed by the utility model has the beneficial effects of low material waste, low cost of manpower and material resources and small welding workload.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a side view of an efficient spiral plate manufacturing apparatus in accordance with an embodiment of the present utility model;

FIG. 2 is a top view of an efficient spiral plate manufacturing apparatus in accordance with an embodiment of the present utility model;

a bottom view of the movement mechanism in an embodiment of the utility model is shown in fig. 3;

a top view of a first main roll in an embodiment of the utility model is shown in fig. 4;

a top view of a second main roll in an embodiment of the utility model is shown in fig. 5;

a schematic of the processing of a component to be processed in an embodiment of the utility model is shown in fig. 6.

Icon: the device comprises a 1-workbench, a 2-moving mechanism, a 3-roller mechanism, a 4-first main roller, a 5-second main roller, a 6-first fixed shaft, a 7-second fixed shaft, an 8-first driving device, a 9-main gear, a 10-sliding plate, an 11-secondary roller, a 12-third fixed shaft, a 13-first groove, a 14-second groove, a 15-first embedded block, a 16-third groove, a 17-fourth groove, a 18-second embedded block, a 19-main roller motor, a 20-main roller gearbox, a 21-first output shaft, a 22-rotating gear, a 23-second driving device, a 24-screw rod, a 25-sliding plate motor, a 26-sliding plate gearbox, a 27-second output shaft, a 28-first sliding rail, a 29-second sliding rail, a 30-annular sliding seat, a 31-forward travel switch, a 32-backward travel switch, a 33-directional wheel and a 34-supporting column.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1, 2, 3, 4, 5 and 6, the present embodiment proposes an efficient spiral plate manufacturing apparatus, including a workbench 1;

the top surface of the workbench 1 is provided with a moving mechanism 2 and a roller mechanism 3, the moving mechanism 2 is matched with the roller mechanism 3, and the moving mechanism 2 is slidably arranged on the top surface of the workbench 1;

the roller mechanism 3 is provided with a first main roller 4 and a second main roller 5, and the first main roller 4 and the second main roller 5 are parallel to each other and are arranged at intervals;

the center of the first main roller 4 is provided with a first fixed shaft 6, the first fixed shaft 6 vertically penetrates through the workbench 1 along the axis of the first main roller 4, and the first main roller 4 is fixed at the top end of the first main roller 4;

the center of the second main roller 5 is provided with a second fixed shaft 7, the second fixed shaft 7 vertically penetrates through the workbench 1 along the axis of the second main roller 5, and the second main roller 5 is fixed at the top end of the second main roller 5;

the lower part of the workbench 1 is provided with a first driving device 8, the bottom ends of the first fixed shaft 6 and the second fixed shaft 7 are fixedly connected with a main gear 9, the main gears 9 of the first fixed shaft 6 and the second fixed shaft 7 are mutually meshed for transmission, and the first driving device 8 is in transmission connection with the main gear 9;

the moving mechanism 2 is provided with a sliding plate 10 which can slide, the top surface of the sliding plate 10 is provided with a slave roller 11, the first main roller 4 and the second main roller 5 are distributed in a mutually triangular mode, a third fixed shaft 12 is arranged at the center of the slave roller 11, the third fixed shaft 12 is vertically and fixedly connected to the sliding plate 10 along the axis of the slave roller 11, and the slave roller is rotatably sleeved on the third fixed shaft 12;

the first main roller 4, the second main roller 5 and the auxiliary roller 11 are all inner groove type rollers.

When the rolling device is used, rectangular steel strips are placed between the first main roller 4 and the second main roller 5 and the auxiliary roller 11 and are tightly attached, the auxiliary roller 11 is driven to downwards press by the sliding plate 10 in the moving mechanism 2, the first driving device 8 drives the first main roller 4 and the second main roller 5 to rotate clockwise or anticlockwise to repeatedly roll the rectangular steel strips, and finally the rolling device rolls into a circular ring.

The embodiment discloses a high-efficient spiral plate manufacturing installation owing to set up first main roll 4, second main roll 5 and from roller 11 as the indent gyro wheel, by the steel sheet place between first main roll 4 and second main roll 5 and from roller 11, make from roller 11 move down through screw rod 24, compress tightly by the steel sheet, after the steel sheet is fixed, start first drive arrangement 8, begin the coiling, after the radian of coiling to needs, take out the finished product, and then make a high-efficient spiral plate manufacturing installation have difficult material waste, low in cost of manpower and materials, welding workload is little beneficial effect.

Referring to fig. 1, 2, 3, 4, 5 and 6, a first groove 13 is formed in the inner wall of the first main roller 4, the first groove 13 extends along the axial direction of the first main roller 4, a second groove 14 is formed in the outer wall of the first fixed shaft 6, the second groove 14 extends along the axial direction of the first fixed shaft 6, the first groove 13 corresponds to the second groove 14, a first embedded block 15 is embedded in the aligned first groove 13 and second groove 14, and the first embedded block 15 is tightly embedded in the aligned first groove 13 and second groove 14;

the inner wall of the second main roller 5 is provided with a third groove 16, the third groove 16 extends along the axial direction of the second main roller 5, the outer wall of the second fixed shaft 7 is provided with a fourth groove 17, the fourth groove 17 extends along the axial direction of the second fixed shaft 7, the third groove 16 corresponds to the fourth groove 17, the second embedded block 18 is embedded in the aligned third groove 16 and the fourth groove 17, the second embedded block 18 is tightly embedded in the aligned third groove 16 and the fourth groove 17, the first main roller 4 is connected with the first fixed shaft 6 through the first embedded block 15, the technical effect that the first main roller 4 and the first fixed shaft 6 are mutually fixed is effectively achieved, the second main roller 5 is connected with the second fixed shaft 7 through the second embedded block 18, the technical effect that the second main roller 5 and the second fixed shaft 7 are mutually fixed is also facilitated, the first main roller 4 is further ensured to rotate along with the first fixed shaft 6, the second main roller 5 is further ensured to rotate along with the second fixed shaft 7, meanwhile, the first main roller 4 and the second main roller 5 are further conveniently detached and prolonged, the service life of the device is further facilitated, and the service life of the second main roller 5 is prolonged.

The first driving device 8 is provided with a main roller motor 19 and a main roller gearbox 20, the main roller motor 19 is in transmission connection with the main roller gearbox 20, the main roller gearbox is provided with a rotatable first output shaft 21, the outer end of the first output shaft 21 is fixedly connected with a rotary gear 22, the rotary gear 22 is in meshing connection with the main gear 9, the main roller motor 19 can drive the output shaft of the main roller gearbox 20 to rotate through clockwise or anticlockwise rotation, and the rotary gear 22 at the outer end of the first output shaft 21 is convenient to drive the main gear 9 to rotate, so that the first main roller 4 and the second main roller 5 are driven to rotate.

Referring to fig. 1, 2, 3, 4, 5 and 6, the moving mechanism 2 further includes a second driving device 23, a screw 24 is disposed between the second driving device 23 and the slide plate 10, one end of the screw 24 is connected with the slide plate 10, the other end of the screw 24 is connected with the second driving device 23, and the screw 24 is arranged so as to facilitate the movement of the slide plate 10

The power of the second driving device 23 is transmitted to the sliding plate 10, so that the sliding plate 10 can be controlled to realize the sliding technical effect.

The second driving device 23 is provided with a slide motor 25, the output end of the slide motor 25 is in transmission connection with a slide gearbox 26, the slide gearbox 26 is provided with a rotatable second output shaft 27, the other end of the screw 24 is detachably and fixedly connected to the second output shaft 27, the power output by the slide motor 25 can be changed through the slide gearbox 26, and the slide 10 does not need to slide at a high speed but can slide slowly, so that the slide gearbox 26 can better adjust the power output by the slide motor 25, and the slide 10 can slide forwards or backwards by rotating the slide motor 25 clockwise or anticlockwise.

The bottom of slide 10 is equipped with first slide rail 28 and second slide rail 29, and first slide rail 28 and second slide rail 29 are parallel to each other, and first slide rail 28 and second slide rail 29 are all fixed on the workstation, and first slide rail 28 and second slide rail 29 are favorable to the removal of slide 10, still have the effect of direction simultaneously, have restricted the slip direction of slide 10, and then have ensured the quality after the machined part processing.

The bottom surface of the slide plate 10 is provided with an annular slide seat 30, the inner hole wall of the annular slide seat 30 is provided with external threads matched with the screw rod 24, one end of the screw rod 24 is rotatably connected with the annular slide seat 30 through threads, the annular slide seat 30 is convenient for the slide plate 10 to be matched with the screw rod 24, and meanwhile, the screw rod 24 is convenient for driving the slide plate 10 to slide forwards and backwards.

The front and rear ends of the sliding plate in the sliding direction are respectively provided with a front travel switch 31 and a rear travel switch 32, and the front travel switch 31 and the rear travel switch 32 are positioned above the sliding rail and fixedly connected with the sliding plate 10;

the front travel switch 31 and the rear travel switch 32 are electrically connected with the slide motor 25, and the slide plate 10 is ensured to slide on the limited first slide rail 28 and second slide rail 29 through the contact of the front travel switch 31 and the rear travel switch 32, so that equipment is not damaged, and operation safety is ensured.

A plurality of orientation wheels 33 are respectively and fixedly connected to the bottom surface of the slide plate 10, and the first slide rail 28 and the second slide rail 29 are respectively and fixedly connected to the orientation wheels 33, so that the slide plate 10 can be effectively assisted to slide on the first slide rail 28 and the second slide rail 29 by the orientation wheels 33.

The workstation has a plurality of support columns 34, the top vertical fixation of a plurality of support columns 34 is connected in the workstation, first drive arrangement 8 detachable fixes in the inboard of support column 34, second drive arrangement 23 detachable fixes in the outside of support column 34, a plurality of support columns 34 can effectually support the workstation for the bottom surface is kept away from to the workstation, and the workman is also comparatively laborsaving when processing the component of waiting to process simultaneously, and, also makes things convenient for the arrangement of first drive arrangement 8 and second drive arrangement 23, makes the structure of whole device comparatively compact, and it is comparatively convenient to remove or transport.

Referring to fig. 2 and 3, in the present embodiment, when the slide 10 slides forward, the front travel switch 31 touches the slide rail, the slide motor 25 stops rotating, and when the slide 10 slides backward, the rear travel switch 32 touches the slide rail, the slide motor 25 stops rotating, thereby effectively protecting the slide rail and the slide motor 25.

Referring to fig. 1, 2, 4, 5 and 6, in this embodiment, the first main roller 4, the second main roller 5 and the slave roller 11 all adopt groove structures, that is, the outer circumferential surfaces of the first main roller 4, the second main roller 5 and the slave roller 11 are all in the form of inner grooves, which is favorable for fixing the member to be processed, ensuring that the member to be processed is bent only in the width direction and is not deformed in the thickness direction in the rolling process, and the first main roller 4, the second main roller 5 and the slave roller 11 rotate in opposite directions in the rolling process, so that the member to be processed continuously rotates in the rolling process, and the member to be processed is tiled on the workbench 1, which is favorable for smooth movement of the member to be processed in the rolling process.

In the embodiment, a rectangular steel plate with the width of 50mm and the length of 3400mm is arranged below a steel plate with the length of 15mm, and the steel plate is put into the device for rolling and shaping, so that the material waste can be reduced, the labor intensity can be reduced, the cost can be saved, and the working efficiency can be improved.

In this embodiment, this device can be showing improvement material utilization ratio, adopts the steel sheet unloading time, can become the straight strip form with the steel sheet down, and material loss is negligible, can adopt more economical band steel to crooked in addition, does not have the material extravagant completely, has practiced thrift a large amount of manpower and materials that consume when the unloading simultaneously.

In this embodiment, the welding workload is small because of the roll forming; the spiral plate can be lengthened in a segmented mode by adopting the straight plate bending structure, the butt joint is reduced, and manpower and material resources can be saved to the greatest extent.

In this embodiment, since the welding amount is reduced, the problem of difficulty in assembly due to welding deformation can be reduced.

In the embodiment, the device has smaller volume, reduces occupied space and is more convenient for the whole movement of the conventional veneer reeling machine.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. An efficient spiral plate manufacturing apparatus, characterized in that:

comprises a workbench;

the top surface of the workbench is provided with a moving mechanism and a roller mechanism, the moving mechanism is matched with the roller mechanism, and the moving mechanism is slidably arranged on the top surface of the workbench;

the roller mechanism is provided with a first main roller and a second main roller, and the first main roller and the second main roller are parallel to each other and are arranged at intervals;

the center of the first main roller is provided with a first fixed shaft which vertically penetrates through the workbench along the axis of the first main roller, and the first main roller is fixed at the top end of the first main roller;

the center of the second main roller is provided with a second fixed shaft which vertically penetrates through the workbench along the axis of the second main roller, and the second main roller is fixed at the top end of the second main roller;

the lower part of the workbench is provided with a first driving device, the bottom ends of the first fixed shaft and the second fixed shaft are fixedly connected with a main gear, the first fixed shaft and the main gear of the second fixed shaft are in meshed transmission, and the first driving device is in transmission connection with the main gear;

the moving mechanism is provided with a sliding plate which can slide, the top surface of the sliding plate is provided with a slave roller, the first main roller and the second main roller are distributed in a mutually triangular mode, a third fixed shaft is arranged at the center of the slave roller, the third fixed shaft is vertically and fixedly connected to the sliding plate along the axis of the slave roller, and the slave roller is rotatably sleeved on the third fixed shaft;

the first main roller, the second main roller and the auxiliary roller are all inner groove type rollers.

2. An efficient spiral plate manufacturing apparatus as recited in claim 1, wherein:

the inner wall of the first main roller is provided with a first groove, the first groove extends along the axial direction of the first main roller, the outer wall of the first fixed shaft is provided with a second groove, the second groove extends along the axial direction of the first fixed shaft, the first groove corresponds to the second groove, the first embedded block is embedded in the first groove and the second groove which are aligned, and the first embedded block is tightly embedded in the first groove and the second groove which are aligned;

the inner wall of the second main roller is provided with a third groove, the third groove extends along the axial direction of the second main roller, the outer wall of the second fixing shaft is provided with a fourth groove, the fourth groove extends along the axial direction of the second fixing shaft, the third groove corresponds to the fourth groove, the second embedded block is embedded in the aligned third groove and the fourth groove, and the second embedded block is tightly embedded in the aligned third groove and the fourth groove.

3. An efficient spiral plate manufacturing apparatus as recited in claim 1, wherein:

the first driving device is provided with a main roller motor and a main roller gearbox, the main roller motor is in transmission connection with the main roller gearbox, the main roller gearbox is provided with a rotatable first output shaft, the outer end of the first output shaft is fixedly connected with a rotary gear, and the rotary gear is in meshing connection with the main gear.

4. An efficient spiral plate manufacturing apparatus as recited in claim 1, wherein:

the moving mechanism further comprises a second driving device, a screw is arranged between the second driving device and the sliding plate, one end of the screw is connected with the sliding plate, and the other end of the screw is connected with the second driving device.

5. An efficient spiral plate manufacturing apparatus as recited in claim 4, wherein:

the second driving device is provided with a slide plate motor, the output end of the slide plate motor is in transmission connection with a slide plate gearbox, the slide plate gearbox is provided with a rotatable second output shaft, and the other end of the screw rod is detachably and fixedly connected to the second output shaft.

6. An efficient spiral plate manufacturing apparatus as recited in claim 1, wherein:

the bottom of slide is equipped with first slide rail and second slide rail, first slide rail with the second slide rail is parallel to each other, first slide rail with the second slide rail is all fixed on the workstation.

7. An efficient spiral plate manufacturing apparatus as recited in claim 4, wherein:

the bottom surface of the sliding plate is provided with an annular sliding seat, the inner hole wall of the annular sliding seat is provided with external threads matched with the screw rod, and one end of the screw rod is rotatably connected with the annular sliding seat through threads.

8. An efficient spiral plate manufacturing apparatus as recited in claim 6, wherein:

the front and rear ends of the sliding plate in the sliding direction are respectively provided with a front travel switch and a rear travel switch, and the front travel switch and the rear travel switch are positioned above the sliding rail and fixedly connected with the sliding plate;

the front travel switch and the rear travel switch are electrically connected with the slide plate motor.

9. An efficient spiral plate manufacturing apparatus as recited in claim 6, wherein:

the first sliding rail and the second sliding rail are respectively provided with a plurality of directional wheels, and the directional wheels are respectively and fixedly connected to the bottom surface of the sliding plate.

10. An efficient spiral plate manufacturing apparatus as recited in claim 4, wherein:

the workbench is provided with a plurality of support columns, the top ends of the support columns are vertically and fixedly connected to the workbench, the first driving device is detachably fixed on the inner side of the support columns, and the second driving device is detachably fixed on the outer side of the support columns.