CN112590036A - Automatic processing device for oval decorative gypsum boards - Google Patents

Abstract

The invention discloses an automatic processing device for an oval decorative gypsum board, which comprises a processing machine body, wherein a processing cavity is arranged in the processing machine body, the left side and the right side of the processing cavity are respectively communicated with a feed inlet with a left opening and a right opening, a belt transmission cavity is arranged at the lower side of the processing cavity, a power motor is fixedly arranged in the lower wall of the belt transmission cavity, the upper end surface of the power motor is in power connection with a power rotating shaft, the lower wall of the processing cavity is in sliding connection with a driving sliding block, and a power rotating shaft sliding chute which penetrates up and down is arranged in the driving sliding block. The convenient to use person decorates the room in, labour saving and time saving avoids the manpower extravagant.

Description

Automatic processing device for oval decorative gypsum boards

Technical Field

The invention relates to the technical field of plates, in particular to an automatic processing device for an oval decorative gypsum board.

Background

In our daily life, always will need decorate it when interior decoration, and the gypsum board is the panel of a comparatively commonly used that is used for decorating indoor ceiling, and the decorator is using the gypsum board to decorate the in-process, always needs the manual work to polish it, and it is longer to consume time, and the cost is higher, in case processing error appears, influences the time of handing over. The automatic processing device for the oval decorative gypsum board can solve the problems that the existing decorative gypsum board needs to be manually processed by decorating personnel, time and labor are wasted, and labor cost is wasted.

Disclosure of Invention

In order to solve the problems, the present example designs an automatic processing device for an oval decorative gypsum board, which comprises a processing machine body, wherein a processing cavity is arranged in the processing machine body, the left side and the right side of the processing cavity are respectively communicated with a feed inlet with a left opening and a right opening, a belt transmission cavity is arranged at the lower side of the processing cavity, a power motor is fixedly arranged in the lower wall of the belt transmission cavity, the upper end surface of the power motor is in power connection with a power rotating shaft, the lower wall of the processing cavity is in sliding connection with a driving sliding block, a power rotating shaft sliding groove which penetrates up and down is arranged in the driving sliding block, the upper end surface of the power rotating shaft penetrates through the belt transmission cavity and the power rotating shaft sliding groove and extends to the upper side of the driving sliding block, a driving turntable is fixedly connected with the upper end surface axis of the power rotating, a driven slide block capable of sliding back and forth is arranged in the driven slide block cavity, the lower side of the driven slide block cavity is communicated with revolution connecting rod chutes which are symmetrical left and right and have downward openings, telescopic devices are arranged in the left and right revolution connecting rod chutes, a bearing plate cavity with an upward opening is arranged in the driven slide block, a trigger device is arranged in the bearing plate cavity and can control the power motor to start, the left and right sides of the driven slide block cavity are communicated with connecting rod chutes, the left and right sides of the left and right connecting rod chutes are communicated with translation slide block cavities, the left and right end faces of the driven slide block are respectively and fixedly connected with connecting rods, the left and right end faces of the connecting rods respectively extend into the left and right translation slide block cavities and are fixedly connected with translation slide blocks, a clamping plate cavity is communicated with the upper side of the processing cavity, and a lifting plate cavity positioned, the lifting plate cavity is internally provided with a clamping device which can clamp the decorative gypsum plate tightly so as to facilitate processing, a processing knife positioned on the upper side of the driven slider is fixedly arranged on the rear wall of the processing cavity, a transmission device is arranged in the belt transmission cavity and can control the driving slider to move back and forth, and the driving slider can drive the driven slider to slide back and forth through the telescopic device so as to assist a user in processing.

Preferably, the telescopic device comprises a revolution connecting rod fixedly connected to the left side and the right side of the end face of the driving turntable respectively, a telescopic block cavity is formed in the revolution connecting rod, a telescopic block capable of sliding up and down is arranged in the telescopic block cavity, the left side and the right side are two, the upper end face of the telescopic block is fixedly connected with a telescopic block spring between the upper walls of the telescopic block cavity, the left side and the right side are two, the lower end face of the telescopic block is fixedly connected with a telescopic block connecting rod, the lower end face of the telescopic block connecting rod extends to the lower end face of the revolution connecting rod, the lower end face of the telescopic block connecting rod is fixedly connected with a clamping block, and the left side and the right side of the driving slider are respectively provided with a clamping.

Preferably, the triggering device comprises a bearing plate which is arranged in a bearing plate cavity and can slide up and down, a bearing plate spring is fixedly connected between the lower end surface of the bearing plate and the lower wall of the bearing plate cavity, first contact switches are fixedly arranged on the left side and the right side of the lower end surface of the bearing plate respectively, and second contact switches right opposite to the first contact switches are fixedly arranged on the lower wall of the bearing plate cavity.

Preferably, the clamping device comprises a clamping plate which is arranged in the clamping plate cavity and can slide up and down, a lifting plate which can slide up and down is arranged in the lifting plate cavity, a lifting plate connecting rod is fixedly connected to the lower end face of the lifting plate, the lower end face of the lifting plate connecting rod is fixedly connected to the upper end face of the clamping plate, the lower end face of the lifting plate surrounds a lifting plate spring of the lifting plate connecting rod, a lifting electromagnet is fixedly arranged in the lower wall of the lifting plate cavity, and the friction coefficient of the upper end face of the bearing plate is far larger than that of the lower end face of the clamping plate.

Preferably, the transmission device comprises a driving bevel gear which is rotatably connected with the lower wall of the belt transmission cavity and is positioned at the rear side of the power rotating shaft, a first driving belt pulley is fixedly sleeved on the outer circular surface of the power rotating shaft positioned in the belt transmission cavity, a first driven belt pulley is fixedly connected with the upper shaft center of the driving bevel gear, a first belt is sleeved between the first driven belt pulley and the first driving belt pulley, a driven bevel gear which is rotatably connected with the rear wall of the belt transmission cavity is meshed with the rear side of the driving bevel gear, a second driving belt pulley is fixedly connected with the rear shaft center of the driven bevel gear, a power switching cavity which is positioned at the rear side of the processing machine body is arranged on the upper side of the belt transmission cavity, a screw rod is rotatably connected with the rear wall of the power switching cavity, a rotating sleeve which can slide back and forth is arranged in the power switching cavity, and a, the fixed spring board that is equipped with of rotation sleeve rear end face, both ends face runs through respectively about the lead screw rotate sleeve chamber left and right sides, spring board rear end face with fixedly connected with encircle between the power switching chamber back wall in the power switching spring of lead screw, the outer disc cover of rotation sleeve is equipped with splined connection's second driven pulley, second driven pulley with around being equipped with the second belt between the second driving pulley, power switching chamber back wall internal fixation is equipped with the power switching electro-magnet.

Preferably, be equipped with the intercommunication in the rotating sleeve with the spline in rotating the sleeve chamber, the spline sets up to ring shape, spline left side intercommunication is equipped with the spline draw-in groove, is located in the rotating sleeve intracavity the fixed spline that is equipped with in the outer disc upper end of lead screw, the spline up end extends to in the spline.

Preferably, a threaded hole is formed in the driving sliding block and located on the rear side of the power rotating shaft sliding groove, the front end face of the screw rod extends into the threaded hole, and the outer circular face of the screw rod located in the threaded hole is in threaded connection with the inner wall of the threaded hole.

The invention has the beneficial effects that: according to the invention, the gypsum board to be processed is fixed firstly by controlling the rotation state of the gypsum board to be processed, and then is driven to rotate to carry out circular processing, so that the phenomenon that a processing knife is damaged due to too much direct feeding is avoided, and then the gypsum board to be processed is driven to carry out eccentric rotation to be processed into an oval shape, so that a user can conveniently decorate the interior of a house, time and labor are saved, and manpower waste is avoided.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of an automatic processing device for oval decorative gypsum boards according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic processing device for an oval decorative gypsum board, which comprises a processing machine body 11, wherein a processing cavity 12 is arranged in the processing machine body 11, the left side and the right side of the processing cavity 12 are respectively communicated with a feed inlet 13 with a leftward opening and a rightward opening, a belt transmission cavity 14 is arranged at the lower side of the processing cavity 12, a power motor 15 is fixedly arranged in the lower wall of the belt transmission cavity 14, the upper end surface of the power motor 15 is in power connection with a power rotating shaft 16, the lower wall of the processing cavity 12 is in sliding connection with a driving slide block 17, a power rotating shaft slide groove 18 which penetrates up and down is arranged in the driving slide block 17, the upper end surface of the power rotating shaft 16 penetrates through the belt transmission cavity 14 and the power rotating shaft slide groove 18 and extends to the upper side of the driving slide block 17, the upper end surface of the power rotating shaft 16 is in shaft center fixedly, a driven slide block 21 capable of sliding back and forth is arranged in the driven slide block cavity 20, the lower side of the driven slide block cavity 20 is communicated with revolution connecting rod sliding grooves 31 which are symmetrical left and right and have downward openings, telescopic devices 101 are arranged in the left and right revolution connecting rod sliding grooves 31, a bearing plate cavity 26 with an upward opening is arranged in the driven slide block 21, a trigger device 102 is arranged in the bearing plate cavity 26, the trigger device 102 can control the power motor 15 to start, connecting rod sliding grooves 22 are arranged on the left and right sides of the driven slide block cavity 20, translation slide block cavities 23 are arranged on the left and right sides of the left and right connecting rod sliding grooves 22, connecting rods 24 are respectively and fixedly connected to the left and right end surfaces of the driven slide block 21, the left and right end surfaces of the left and right connecting rods 24 respectively extend into the left and right translation slide block cavities 23 and are fixedly connected with translation slide blocks 25, the processing machine body 11 is internally provided with a lifting plate cavity 40 positioned at the upper side of the clamping plate cavity 39, the lifting plate cavity 40 is internally provided with a clamping device 103, the clamping device 103 can clamp a decorative gypsum plate tightly so as to facilitate processing, the rear wall of the processing cavity 12 is fixedly provided with a processing knife 68 positioned at the upper side of the driven slide block 21, the belt transmission cavity 14 is internally provided with a transmission device 104, the transmission device 104 can control the driving slide block 17 to move back and forth, and the driving slide block 17 can drive the driven slide block 21 to slide back and forth through the telescopic device 101 so as to assist a user in processing.

Beneficially, the telescopic device 101 includes revolution connecting rods 32 respectively fixedly connected to the left and right sides of the lower end surface of the driving turntable 19, telescopic block cavities 33 are respectively arranged in the left and right revolution connecting rods 32, telescopic blocks 34 capable of sliding up and down are respectively arranged in the left and right telescopic block cavities 33, telescopic block springs 35 are respectively fixedly connected between the upper end surfaces of the left and right telescopic blocks 34 and the upper walls of the left and right telescopic block cavities 33, telescopic block connecting rods 36 are respectively fixedly connected to the lower end surfaces of the left and right telescopic blocks 34, the lower end surfaces of the left and right telescopic block connecting rods 36 extend to the lower side of the lower end surface of the revolution connecting rod 32 and are fixedly connected with clamping blocks 37, and clamping block grooves 38 facing the clamping blocks 37 and opening upwards are respectively arranged on the left and right sides in the driving slider 17.

Advantageously, the triggering device 102 includes a bearing plate 27 disposed in the bearing plate cavity 26 and capable of sliding up and down, a bearing plate spring 28 is fixedly connected between a lower end surface of the bearing plate 27 and a lower wall of the bearing plate cavity 26, the left and right sides of the lower end surface of the bearing plate 27 are respectively and fixedly provided with a first contact switch 29, and the lower wall of the bearing plate cavity 26 is fixedly provided with a second contact switch 30 facing the first contact switch 29.

Beneficially, the clamping device 103 includes a clamping plate 44 which is disposed in the clamping plate cavity 39 and can slide up and down, a lifting plate 41 which can slide up and down is disposed in the lifting plate cavity 40, a lifting plate connecting rod 42 is fixedly connected to a lower end face of the lifting plate 41, a lower end face of the lifting plate connecting rod 42 is fixedly connected to an upper end face of the clamping plate 44, a lifting plate spring 43 surrounding the lifting plate connecting rod 42 is fixedly connected between the lower end face of the lifting plate 41 and a lower wall of the lifting plate cavity 40, a lifting electromagnet 45 is fixedly disposed in a lower wall of the lifting plate cavity 40, and a friction coefficient of an upper end face of the bearing plate 27 is much larger than a friction coefficient of a lower end face of the clamping plate 44.

Beneficially, the transmission device 104 includes a driving bevel gear 49 rotatably connected to the lower wall of the belt transmission cavity 14 and located at the rear side of the power rotation shaft 16, a first driving pulley 46 is fixedly sleeved on the outer circumferential surface of the power rotation shaft 16 located in the belt transmission cavity 14, a first driven pulley 47 is fixedly connected to the upper side axis of the driving bevel gear 49, a first belt 48 is sleeved between the first driven pulley 47 and the first driving pulley 46, a driven bevel gear 50 rotatably connected to the rear wall of the belt transmission cavity 14 is engaged with the rear side of the driving bevel gear 49, a second driving pulley 51 is fixedly connected to the rear side axis of the driven bevel gear 50, a power switching cavity 55 located at the rear side of the processing machine body 11 is arranged on the upper side of the belt transmission cavity 14, a screw 56 is rotatably connected to the rear wall of the power switching cavity 55, a rotating sleeve 57 capable of sliding back and forth is arranged in the power switching cavity 55, the utility model discloses a power switching device, including rotating sleeve 57, spring plate 64, lead screw 56, spring plate 64, power switching chamber 55, second driven pulley 62 with around being equipped with second belt 63 between the second driving pulley 51, the power switching chamber 55 back wall internal fixation is equipped with power switching electro-magnet 66, the both ends face runs through respectively about the lead screw 56 rotate sleeve 58 left and right sides, spring plate 64 rear end face with fixedly connected with encircle between the power switching chamber 55 back wall in the power switching spring 65 of lead screw 56, the outer disc cover of rotating sleeve 57 is equipped with splined connection's second driven pulley 62, second driven pulley 62 with around being equipped with second belt 63 between the second driving pulley 51.

Advantageously, a spline 61 communicated with the rotating sleeve cavity 58 is arranged in the rotating sleeve 57, the spline 61 is arranged in a circular ring shape, a spline clamping groove 59 is communicated on the left side of the spline 61, the spline 61 is fixedly arranged at the upper end of the outer circular surface of the screw rod 56 in the rotating sleeve cavity 58, and the upper end surface of the spline 61 extends into the spline 61.

Advantageously, a threaded hole 67 is formed in the driving slider 17 and located at the rear side of the power spindle sliding groove 18, the front end surface of the screw rod 56 extends into the threaded hole 67, and the outer circular surface of the screw rod 56 located in the threaded hole 67 is in threaded connection with the inner wall of the threaded hole 67.

The following will describe in detail the use steps of an automatic oval decorative gypsum board processing device in the present text with reference to fig. 1 to 5:

in an initial state, the driving slider 17 is located at a front limit position in the processing cavity 12, the driven slider 21 is located at a rear limit position in the driven slider cavity 20, the bearing plate spring 28 enables the bearing plate cavity 26 to be located at an upper limit position through elasticity, the lifting plate spring 43 enables the lifting plate 41 to be located at an upper limit position in the lifting plate cavity 40 through elasticity, the power switching spring 65 enables the rotating sleeve 57 to be located at a front limit position in the power switching cavity 55, and the left fixture block 37 and the right fixture block 37 are located in the left fixture block groove and the right fixture block groove 38 respectively.

In operation, a user prevents the gypsum board to be processed from the upper end surface of the bearing plate 27 through the feeding hole 13, the bearing plate 27 slides downward due to gravity and compresses the bearing plate spring 28, the first contact switch 29 contacts with the second contact switch 30, the lifting electromagnet 45 is energized at the moment, the lifting electromagnet 45 drives the lifting plate 41 to slide downward and compresses the lifting plate spring 43 through magnetic force, the lifting plate 41 drives the lifting plate connecting rod 42 to slide downward, the lifting plate connecting rod 42 drives the clamping plate 44 to slide downward, the lower end surface of the clamping plate 44 and the upper end surface of the bearing plate 27 clamp the board to be processed together, at the moment, the power motor 15 is started, the power motor 15 drives the power rotating shaft 16 to rotate, the power rotating shaft 16 drives the driving turntable 19 to rotate, the driving turntable 19 drives the driven slider 21 to rotate synchronously, the driven slider 21 drives the left and right revolution connecting rods 32 to rotate, the left and right revolution clamping blocks 37 are, the left and right fixture blocks 37 slide upwards and abut against the upper surface of the driving slide block 17, the left and right fixture blocks 37 respectively drive the left and right telescopic block connecting rods 36 to slide upwards, and further respectively drive the left and right telescopic blocks 34 to slide upwards and compress the telescopic block springs 35, at this time, the driven slide block 21 drives the gypsum board to be processed to rotate and process the gypsum board into a round shape, meanwhile, the power rotating shaft 16 drives the first driving pulley 46 to rotate, the first driving pulley 46 drives the first driven pulley 47 to rotate through the first belt 48, the first driven pulley 47 drives the driving bevel gear 49 to rotate through a spline, the driving bevel gear 49 drives the driven bevel gear 50 to rotate through gear teeth engagement, the driven bevel gear 50 drives the second driving pulley 51 to rotate through a spline, the second driving pulley 51 drives the second driven pulley 62 to rotate through the second belt 63, and the second driven pulley 62 drives the rotating sleeve 57 to rotate through a spline, when the gypsum board is required to be processed into an oval shape, the power switching electromagnet 66 is electrified, the power switching electromagnet 66 drives the spring plate 64 to move backwards through magnetic force and compress the power switching spring 65, the spring plate 64 drives the rotating sleeve 57 to move backwards, the spline 61 slides relatively into the spline clamping groove 59, at the moment, the rotating sleeve 57 drives the screw rod 56 to rotate through the spline 61, the screw rod 56 drives the driving slide block 17 to slide forwards through threads, the driving slide block 17 drives the revolving connecting rod 32 to slide forwards through the fixture block 37 and further drives the driven slide block 21 to slide forwards, as the force of the fixture block 37 sliding out of the fixture block groove 38 is greater than the friction force between the left end surface and the right end surface of the left and right translation slide blocks 25 and the left and right walls of the left and right translation slide block cavities 23 respectively, and the friction force between the bearing plate 27 and the gypsum board is greater than the friction force between the gypsum board and the clamping plate 44, the driven slide block 21, the left and right translation sliding blocks 25 are driven to slide forwards, the fixture block 37 can slide out from the fixture block groove 38 in the rotating process, when the fixture block 37 rotates to be positioned at the left side and the right side for the next time, the left and right fixture block grooves 38 can move forwards along with the driving turntable 19, but the moving distance is smaller than the radius of the fixture block 37, therefore, when the fixture block 37 is positioned at the left side and the right side again, the fixture block 37 can reenter the fixture block groove 38 under the elastic force of the telescopic block spring 35, further the driven sliding block 21 is driven to move forwards, the cutting feeding is completed, further, according to the process, the gypsum board is driven to rotate and feed forwards at the same time, the gypsum board is further processed into a shape consisting of two symmetrical circular arcs, and the later-stage processing into.

The invention has the beneficial effects that: according to the invention, the gypsum board to be processed is fixed firstly by controlling the rotation state of the gypsum board to be processed, and then is driven to rotate to carry out circular processing, so that the phenomenon that a processing knife is damaged due to too much direct feeding is avoided, and then the gypsum board to be processed is driven to carry out eccentric rotation to be processed into an oval shape, so that a user can conveniently decorate the interior of a house, time and labor are saved, and manpower waste is avoided.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides an oval gypsum board automatic processing device of decorating, includes the processing fuselage, its characterized in that: a processing cavity is arranged in the processing machine body, the left side and the right side of the processing cavity are respectively communicated with a feed inlet with a left opening and a feed inlet with a right opening, a belt transmission cavity is arranged at the lower side of the processing cavity, a power motor is fixedly arranged in the lower wall of the belt transmission cavity, the upper end surface of the power motor is in power connection with a power rotating shaft, the lower wall of the processing cavity is in sliding connection with a driving slide block, a power rotating shaft slide groove which penetrates up and down is arranged in the driving slide block, the upper end surface of the power rotating shaft penetrates through the belt transmission cavity and the power rotating shaft slide groove and extends to the upper side of the driving slide block, the upper end surface of the power rotating shaft is in shaft center connection with a driving turntable, a driven slide block cavity with an upward opening is arranged in the driving turntable, a driven, a telescopic device is respectively arranged in the left and right revolution connecting rod chutes, a bearing plate cavity with an upward opening is arranged in the driven sliding block, a trigger device is arranged in the bearing plate cavity and can control the power motor to start, the left and right sides of the driven sliding block cavity are respectively communicated with a connecting rod chute, the left and right sides of the left and right connecting rod chutes are respectively communicated with a translation sliding block cavity, the left and right end surfaces of the driven sliding block are respectively and fixedly connected with a connecting rod, the left and right end surfaces of the connecting rod extend into the left and right translation sliding block cavities respectively and are fixedly connected with translation sliding blocks, a clamping plate cavity is communicated with the upper side of the processing cavity, a lifting plate cavity positioned at the upper side of the clamping plate cavity is arranged in the processing machine body, a clamping device is arranged in the lifting plate cavity, the clamping device can clamp the, the belt transmission cavity is internally provided with a transmission device, the transmission device can control the driving sliding block to move back and forth, and the driving sliding block can drive the driven sliding block to slide back and forth through the telescopic device, so that a user is assisted in processing.

2. The automatic processing device of oval decorative gypsum board of claim 1, characterized in that: the telescopic device comprises a revolution connecting rod fixedly connected to the left side and the right side of the end face of the driving turntable respectively, a telescopic block cavity is formed in the revolution connecting rod, a telescopic block capable of sliding up and down is arranged in the telescopic block cavity, the left side and the right side are two, the upper end face of the telescopic block is respectively connected with the left side and the right side, a telescopic block spring is fixedly connected between the upper walls of the telescopic block cavity, the left side and the right side are two, the lower end face of the telescopic block is fixedly connected with the telescopic block connecting rod, the left side and the right side are two, the lower end face of the telescopic block connecting rod extends to the lower side of the end face of the revolution connecting rod and is fixedly connected with a clamping block, and the.

3. The automatic processing device of oval decorative gypsum board of claim 2, characterized in that: trigger device is including locating bearing plate intracavity and gliding bearing plate from top to bottom, the terminal surface under the bearing plate with fixedly connected with bearing plate spring between the bearing plate chamber lower wall, the terminal surface left and right sides is fixed respectively under the bearing plate is equipped with first contact switch, the fixed second contact switch that is just right to first contact switch that is equipped with of bearing plate chamber lower wall.

4. The automatic processing device of oval decorative gypsum board of claim 1, characterized in that: clamping device is including locating gliding pinch-off blades about just can in the pinch-off blades intracavity, gliding lifter plate about can being equipped with in the lifter plate intracavity, terminal surface fixedly connected with lifter plate connecting rod under the lifter plate, terminal surface fixed connection under the lifter plate connecting rod in the pinch-off blades up end, terminal surface under the lifter plate with fixedly connected with encircle between the lifter plate chamber lower wall in the lifter plate spring of lifter plate connecting rod, lifter plate chamber lower wall internal fixation is equipped with the lift electro-magnet, bearing plate up end friction coefficient is far more than terminal surface friction coefficient under the pinch-off blades.

5. The automatic processing device of oval decorative gypsum board of claim 1, characterized in that: the transmission device comprises a driving bevel gear which is rotationally connected with the lower wall of the belt transmission cavity and is positioned at the rear side of the power rotating shaft, a first driving belt wheel is fixedly sleeved on the outer circular surface of the power rotating shaft positioned in the belt transmission cavity, a first driven belt wheel is fixedly connected with the axis of the upper side of the driving bevel gear, a first belt is sleeved between the first driven belt wheel and the first driving belt wheel, a driven bevel gear which is rotationally connected with the rear wall of the belt transmission cavity is meshed with the rear side of the driving bevel gear, a second driving belt wheel is fixedly connected with the axis of the rear side of the driven bevel gear, a power switching cavity positioned at the rear side of the processing machine body is arranged on the upper side of the belt transmission cavity, the rear wall of the power switching cavity is rotationally connected with a screw rod, a rotating sleeve which can slide back and forth is arranged in the power switching, the fixed spring board that is equipped with of rotation sleeve rear end face, both ends face runs through respectively about the lead screw rotate sleeve chamber left and right sides, spring board rear end face with fixedly connected with encircle between the power switching chamber back wall in the power switching spring of lead screw, the outer disc cover of rotation sleeve is equipped with splined connection's second driven pulley, second driven pulley with around being equipped with the second belt between the second driving pulley, power switching chamber back wall internal fixation is equipped with the power switching electro-magnet.

6. The automatic processing device of oval decorative gypsum board of claim 5, characterized in that: be equipped with the intercommunication in the rotating sleeve with the spline in rotating the sleeve chamber, the spline sets up to ring shape, spline left side intercommunication is equipped with the spline draw-in groove, is located rotating the sleeve intracavity the fixed spline that is equipped with in the outer disc upper end of lead screw, the spline up end extends to in the spline.

7. The automatic processing device of oval decorative gypsum board of claim 2, characterized in that: the driving sliding block is internally provided with a threaded hole which is positioned at the rear side of the power rotating shaft sliding groove, the front end face of the screw rod extends into the threaded hole, and the outer circular face of the screw rod which is positioned in the threaded hole is in threaded connection with the inner wall of the threaded hole.

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