CN111409147A - Machining device based on mechanical turnover - Google Patents

Abstract

The invention provides a cutting processing device based on mechanical turnover, which aims to solve the problems that the cutting processing device is easily damaged by cutting teeth and the positions of two times of cutting are easily deviated when a post is turned over, and comprises a frame body and a driving mechanism; the inside of the frame body has connected gradually fagging and last supporting ring down, actuating mechanism installs in the inboard bottom of the frame body and is connected with the transmission of station slewing mechanism, and actuating mechanism still cuts the elevating system transmission with the wooden pearl and is connected, wooden pearl cuts elevating system and is equipped with two parts, and one part is established on the upside of carousel and the top of the frame body, and the downside at the carousel and the bottom side of fagging down are established to another part. The cutting device of both sides can accomplish the cutting process work of wooden pearl in the post by utilizing the carousel about, need not to overturn the post, guarantees moreover that the whole size is unanimous about the wooden pearl of cutting completion, utilizes the space of cutting to get and takes the post, but cycle processing improves work efficiency and can guarantee that the workman can not be hindered to the cutting tooth.

Description

Machining device based on mechanical turnover

Technical Field

The invention belongs to the technical field of mechanical wood bead processing, and particularly relates to a mechanical turnover type cutting processing device.

Background

Along with the development of society, various ornaments are new, and the line and the enamel are full of eyes to satisfy more selection demands of the public on ornaments, and the bracelet, the necklace and the like are one of the choices for decorating images and improving the quality and grade of the air. When the wooden beads are processed, a worker is required to place a raw material of the stumpage on the bottom side of a cutting device on a processing table, press the stumpage with one hand and press the cutting device with the other hand downwards to cut the stumpage by using the cutting teeth, after the upper side of the stumpage is cut, the cutting device is lifted and the stumpage is turned over, so that the other side of the stumpage faces upwards, the cutting device is pressed again, and the other side of the stumpage is cut by using the cutting teeth, so that the wooden beads are cut out of the stumpage. If the application number is: CN201710760930.0 patent discloses a full-automatic wooden bead machine, which comprises an equipment frame, an automatic feeding device, a main spindle box, a positioning device, a feeding device, a driving motor, a driving belt, a wooden bead special lathe tool and a control system, wherein a first mounting table, a second mounting table and a third mounting table are arranged on 4 columns of the equipment frame, the third mounting table is arranged right above the second mounting table, a motor mounting table is arranged in the middle of the column, the automatic feeding device is arranged on the first mounting table, the main spindle box is arranged on the first mounting table and corresponds to the automatic feeding device, the positioning device is arranged on the third mounting table, the feeding device is arranged on the second mounting table, the driving motor is arranged on the motor mounting table, the driving belt is connected with the driving motor and the main spindle box, the wooden bead special lathe tool is arranged on the feeding device, the equipment of the invention improves the manufacturing efficiency of the wood beads, and the manufactured wood beads have good quality.

Based on the above, when the post is used for processing the wood beads, the post needs to be manually pressed and the cutting device needs to be pressed downwards, the working efficiency of wood bead cutting is low, the hand pressing the post is easily damaged by the cutting teeth, and then when the post is turned over, the positions of two times of cutting are easily deviated, so that the quality of the wood beads is affected.

Disclosure of Invention

In order to solve the technical problems, the invention provides a cutting device based on mechanical turnover, which aims to solve the problems that wood beads are low in cutting efficiency and easily damaged by cutting teeth, and the positions of two times of cutting are easily deviated when a post is turned over.

The invention is based on the purpose and the effect of a mechanical turnover type cutting processing device, and is achieved by the following specific technical means:

a cutting processing device based on mechanical turnover comprises a frame body, a driving mechanism and a sawdust cylinder; the inside of the frame body has connected gradually fagging and last supporting ring down, and still is connected with the semicircle snap ring on the fagging down, actuating mechanism installs in the inboard bottom of the frame body and is connected with the transmission of station slewing mechanism, and actuating mechanism still cuts the elevating system transmission with the wooden pearl and is connected, station slewing mechanism installs in the frame body and establishes the upside that props the ring on, wooden pearl cuts elevating system and is equipped with two parts, and one part is established on the upside of carousel and the top of the frame body, and the downside at the carousel and the bottom side of fagging down are established to another part, a saw-dust section of thick bamboo card is gone into in the semicircle snap ring.

Furthermore, the driving mechanism comprises a driving device, a main driving shaft, a vertical bevel gear A, a transition shaft, a transition gear and a vertical bevel gear B, the main driving shaft is connected to an output shaft of the driving device and sequentially penetrates through the lower supporting plate and the upper supporting ring upwards to be connected with the vertical bevel gear A, the driving device is a driving motor and reducer integrated machine and is fixed to the bottom side of the interior of the frame body, the transition shaft is rotatably embedded between the lower supporting plate and the frame body and is in transmission connection with the main driving shaft through a chain, and the vertical bevel gear B and the transition gear are sequentially installed on the transition shaft.

Further, station slewing mechanism includes carousel, small opening, overhanging board, intermittent type pivot, intermittent type rotating gear and baffle, the carousel is fixed to be clamped in the intermittent type pivot, and the intermittent type pivot rotates and inlays the inboard at the frame body, still be equipped with two sets of baffles in the intermittent type pivot and establish the upper and lower both sides at the carousel, and the lower extreme of intermittent type pivot still fixed mounting have intermittent type rotating gear, still be equipped with four groups on the carousel and be the small opening of cyclic annular range, and the upside of small opening still is connected with cylindricality wood clamping mechanism, still be connected with overhanging board in the periphery of carousel, and overhanging board establishes in the outside directly over the small opening, the outer end of carousel still pastes and props the ring, and the small opening is established and is propped the ring hole directly over.

Furthermore, the semicircular clamping ring is arranged right below the leakage hole, the inner diameter of the semicircular clamping ring is larger than that of the leakage hole, and a square hole is formed in the end, opposite to the semicircular clamping ring, of the frame body.

Further, cylindricality wood screens mechanism includes fixed cardboard, lower spacing ring, activity cardboard, U type pull rod, screens spring, the spacing ring is connected and is supported and fix directly over the small opening down, and fixed cardboard is connected the top rear end of spacing ring under, the activity cardboard is established at the top opposite side of spacing ring down and is relative with fixed cardboard, and the outside end of activity cardboard still is connected with U type pull rod, suit screens spring and outwards wear out the outrigger on the U type pull rod.

Furthermore, one part of the wood bead cutting lifting mechanism comprises a cutting device, cutting teeth, a lifting shaft, an upper connecting plate, an upper crankshaft and a transverse bevel gear A, wherein the top end of the cutting device is connected to the upper lifting shaft and arranged on the upper side of the rotary table, the lifting shaft penetrates through the frame body upwards and is connected to the hinged end of the upper connecting plate, the other end of the upper connecting plate is rotatably clamped on the upper crankshaft, the horizontal outer end of the upper crankshaft is also connected with the transverse bevel gear A, the transverse bevel gear A and the vertical bevel gear A are in a transmission ratio of 1:1 and are in meshed connection with each other, a rotating motor is further installed inside the cutting device, and the cutting teeth are fixedly connected to the output end of the rotating motor.

Furthermore, the other part of the wood bead cutting lifting mechanism comprises a cutting device, a lower lifting shaft, a lower connecting plate, a lower crankshaft and a transverse bevel gear B, the bottom end of the cutting device is connected to the lower lifting shaft and arranged on the lower side of the rotary table, the lower lifting shaft penetrates through the lower supporting plate downwards to be connected to the hinged end of the lower connecting plate, the other end of the lower connecting plate is rotatably clamped on the lower crankshaft, the horizontal outer end of the lower crankshaft is also connected with the transverse bevel gear B, and the transverse bevel gear B and the vertical bevel gear B are in a transmission ratio of 1:1 and are in meshed connection with each other.

Furthermore, the number of the clamping teeth on the periphery of the intermittent rotating gear is 4 times that of the clamping teeth on the periphery of the transition gear, the clamping teeth on the transition gear can be meshed with the clamping teeth on the periphery of the intermittent rotating gear, and when the top end of the cutting device is drawn out from the leak hole or the bottom end of the cutting device is far away from the upper end of the cylindrical wood clamping mechanism, the transition gear is just meshed with the intermittent rotating gear.

Furthermore, when the transition gear is just separated from the intermittent rotating gear, the cutting devices are respectively opposite to the upper side and the lower side of the leak hole.

The invention at least comprises the following beneficial effects:

according to the invention, by arranging the cylindrical wood clamping mechanism, when the rotary table does not rotate, the movable clamping plate can be pulled outwards through the U-shaped pull rod, the column wood is placed on the lower limiting ring and in the fixed clamping plate, after the U-shaped pull rod is loosened, the clamping spring sleeved on the U-shaped pull rod is utilized to drive the movable clamping plate to move towards the fixed clamping plate, the column wood is clamped at the inner sides of the fixed clamping plate and the movable clamping plate, the column wood is conveniently clamped, and the column wood can be conveniently taken out from the cylindrical wood clamping mechanism after the column wood is processed.

The invention also sets a station rotating mechanism and a wooden bead cutting lifting mechanism, when a driving device drives a main driving shaft to rotate, a transition shaft is driven to rotate by a chain, a cutting device is driven to move upwards by the engagement of a vertical bevel gear B and a transverse bevel gear B, the lower side of a post clamped in a cylindrical wooden clamping mechanism is cut by penetrating through a leak hole, an upper crankshaft is driven to rotate by the engagement of the vertical bevel gear A and the transverse bevel gear A, the upper side of the post clamped in the cylindrical wooden clamping mechanism is cut by driving the cutting device to move downwards by an upper connecting plate, after two groups of cutting devices finish cutting and leave the post, a latch on the outer side of the transition gear on the transition shaft is engaged with a latch on an intermittent rotating gear to drive an intermittent rotating shaft to rotate 1/4 circles, so that the cylindrical wooden clamping mechanism on a turntable is rotated to the next station, and the cutting work of wooden beads in the post can be finished by the cutting devices on the upper side and the lower side of the, need not the upset post, also need not the manual work and press the post, can guarantee moreover that the cutting device is in same vertical direction with the position of last cutting device cutting down, guarantee that the whole size is unanimous about the wooden pearl that the cutting was accomplished, improve the processingquality of wooden pearl, utilize the space of cutting to get and take the post, but circulation processing improves work efficiency and can guarantee that the cutter can not injure the workman.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is an enlarged schematic view of the structure at a of the present invention.

Fig. 3 is a schematic side view of the invention shown in fig. 1.

Fig. 4 is a schematic front view of fig. 1 according to the present invention.

FIG. 5 is a schematic view of the backside structure of FIG. 1 according to the present invention.

Fig. 6 is a schematic view showing a structure of the cutting apparatus of fig. 1 of the present invention cutting a stump downward.

Fig. 7 is an enlarged schematic view of the invention at B.

Fig. 8 is a schematic side view of the device of fig. 6.

Fig. 9 is a schematic structural view of the turntable and the cylindrical wood clamping mechanism in the invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a frame body; 101. a lower supporting plate; 1011. a semicircular snap ring; 102. an upper support ring; 2. a drive mechanism; 201. a drive device; 202. a main drive shaft; 2021. a vertical bevel gear A; 203. a transition shaft; 2031. a transition gear; 2032. a vertical bevel gear B; 3. a station rotating mechanism; 301. a turntable; 3011. a leak hole; 3012. an overhang plate; 302. an intermittent rotating shaft; 3021. intermittently rotating the gear; 3022. a baffle plate; 4. a cylindrical wood clamping mechanism; 401. fixing the clamping plate; 4011. a lower limit ring; 402. a movable clamping plate; 403. a U-shaped pull rod; 404. a clamping spring; 5. a wood bead cutting lifting mechanism; 501. a cutting device; 5011. cutting teeth; 502. an upper lifting shaft; 503. an upper connecting plate; 504. an upper crankshaft; 5041. a transverse bevel gear A; 505. a lower lifting shaft; 506. a lower connecting plate; 507. a lower crankshaft; 5071. a transverse bevel gear B; 6. a wood chip barrel.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 9:

the invention provides a cutting processing device based on mechanical turnover, which comprises a frame body 1, a driving mechanism 2 and a sawdust cylinder 6, wherein the frame body is provided with a frame body; the inside of the frame body 1 has connected gradually fagging 101 and last supporting ring 102 down, and still be connected with semicircle snap ring 1011 on the fagging 101 down, actuating mechanism 2 installs in the inboard bottom of frame body 1 and is connected with the transmission of station slewing mechanism 3, and actuating mechanism 2 still is connected with the transmission of wooden pearl cutting elevating system 5, station slewing mechanism 3 installs in frame body 1 and establishes the upside at last supporting ring 102, wooden pearl cutting elevating system 5 is equipped with two parts, the upside at carousel 301 and the top of frame body 1 are established to some, the downside at carousel 301 and the bottom side of fagging 101 are established to another part, 6 cards of a saw-dust section of thick bamboo are gone into in semicircle snap ring 1011.

The driving mechanism 2 comprises a driving device 201, a main driving shaft 202, a vertical bevel gear A2021, a transition shaft 203, a transition gear 2031 and a vertical bevel gear B2032, the main driving shaft 202 is connected to an output shaft of the driving device 201 and upwards penetrates through the lower supporting plate 101 and the upper supporting ring 102 in sequence to be connected with the vertical bevel gear A2021, the driving device 201 is a driving motor and reducer integrated machine and is fixed on the bottom side of the inside of the frame body 1, the transition shaft 203 is rotatably embedded between the lower supporting plate 101 and the frame body 1 and is connected with the main driving shaft 202 through chain transmission, and the transition shaft 203 is sequentially provided with the vertical bevel gear 203B 2032 and the transition gear 2031.

The station rotating mechanism 3 comprises a rotary disc 301, a leakage hole 3011, an overhanging plate 3012, an intermittent rotating shaft 302, an intermittent rotating gear 3021 and baffle plates 3022, the rotary disc 301 is fixedly clamped on the intermittent rotating shaft 302, the intermittent rotating shaft 302 is rotatably embedded in the frame body 1, the intermittent rotating shaft 302 is further provided with two groups of baffle plates 3022 and arranged on the upper and lower sides of the rotary disc 301, the intermittent rotating gear 3021 is further fixedly mounted at the lower end of the intermittent rotating shaft 302, the rotary disc 301 is further provided with four groups of leakage holes 3011 arranged in an annular manner, the upper side of each leakage hole 3011 is further connected with a cylindrical wood clamping mechanism 4, the periphery of the rotary disc 301 is further connected with the overhanging plate 3012, the overhanging plate 3012 is arranged right outside the leakage hole 3011, the outer end of the rotary disc 301 is further attached to the upper support ring 102, and the leakage hole 301 is arranged right above the inner hole of the.

Wherein, semicircle snap ring 1011 is established under the small opening 3011, and the internal diameter of semicircle snap ring 1011 is greater than the internal diameter of small opening 3011, and the square hole has still been seted up to the frame body 1 end that semicircle snap ring 1011 is just right, is convenient for go into the interior and right under the small opening 3011 of semicircle snap ring 1011 with a saw-dust section of thick bamboo 6 card, can be used for receiving the saw-dust after the cutting process.

Wherein, cylindricality wood screens mechanism 4 includes fixed cardboard 401, spacing ring 4011 down, activity cardboard 402, U type pull rod 403, screens spring 404, spacing ring 4011 is connected and supports to be fixed directly over the small opening 3011 down, and fixed cardboard 401 is connected at spacing ring 4011's top rear end side down, activity cardboard 402 is established at spacing ring 4011's top opposite side down and is relative with fixed cardboard 401, and the outside end of activity cardboard 402 still is connected with U type pull rod 403, suit screens spring 404 on U type pull rod 403 and outwards wear out overhanging 3012.

Wherein, one part of the wooden ball cutting lifting mechanism 5 comprises a cutting device 501, cutting teeth 5011, an ascending and descending shaft 502, an upper connecting plate 503, an upper crankshaft 504 and a transverse bevel gear A5041, the top end of the cutting device 501 is connected with the upper lifting and descending shaft 502 and is arranged on the upper side of the turntable 301, the ascending and descending shaft 502 upwards penetrates through the frame body 1 and is connected with the hinged end of the upper connecting plate 503, the other end of the upper connecting plate 503 is rotationally clamped on the upper crankshaft 504, the horizontal outer end of the upper crankshaft 504 is also connected with the transverse bevel gear A5041, the transmission ratio of the transverse bevel gear A5041 and the vertical bevel gear A2021 is 1:1 and is mutually meshed and connected, a rotating motor is also arranged inside the cutting device 501, and the cutting teeth 5011 are fixedly connected on the output end of the rotating motor, wherein, the other part of the wooden ball cutting lifting mechanism 5 comprises the cutting device 501, a lower lifting and descending shaft 505, a lower connecting plate 506, a lower crankshaft, the bottom end of the cutting device 501 is connected to the lower lifting shaft 505 and arranged at the lower side of the turntable 301, the lower lifting shaft 505 downwards penetrates through the lower supporting plate 101 to be connected to the hinged end of the lower connecting plate 506, the other end of the lower connecting plate 506 is rotatably clamped on the lower crankshaft 507, the horizontal outer end of the lower crankshaft 507 is further connected with a transverse bevel gear B5071, and the transmission ratio of the transverse bevel gear B5071 to the vertical bevel gear B2032 is 1:1 and the transverse bevel gear B5071 and the vertical bevel gear B2032 are meshed with each other.

The number of the teeth on the periphery of the intermittent rotary gear 3021 is 4 times that of the teeth on the periphery of the transition gear 2031, the teeth on the transition gear 2031 can be meshed with the teeth on the periphery of the intermittent rotary gear 3021, and when the top end of the cutting device 501 is pulled out of the leak hole 3011 or the bottom end of the cutting device 501 is far away from the upper end of the cylindrical wood clamping mechanism 4, the transition gear 2031 is just meshed with the intermittent rotary gear 3021, the teeth on the outer side of the transition gear 2031 on the transition shaft 203 are meshed with the teeth on the intermittent rotary gear 3021, the intermittent rotary shaft 302 is driven to rotate 1/4 circles, the turntable 301 is synchronously driven to rotate 1/4 circles, the cylindrical wood clamping mechanism 4 is enabled to rotate to the next station, and when the turntable 301 rotates, the turntable 301, the cylindrical wood clamping mechanism 4 and the cutting device 501 are prevented from colliding.

When the transition gear 2031 and the intermittent rotation gear 3021 are just disengaged, the cutting devices 501 are respectively aligned with the upper and lower sides of the leak hole 3011, so that the driving device 201 can drive the cutting devices 501 to respectively cut the lower side and the upper side of the post clamped in the post clamping mechanism 4.

The specific use mode and function of the embodiment are as follows:

in the invention, a movable clamping plate 402 is pulled outwards by a U-shaped pull rod 403, a post is placed on a lower limit ring 4011 and in a fixed clamping plate 401, after the U-shaped pull rod 403 is loosened, a clamping spring 404 sleeved on the U-shaped pull rod 403 drives the movable clamping plate 402 to move towards the fixed clamping plate 401, the post is clamped between the fixed clamping plate 401 and the movable clamping plate 402, the post is conveniently clamped, a cutting device 501 is started, a rotating motor on the inner side of the cutting device drives cutting teeth 5011 to rotate, a starting driving device 201 drives a main driving shaft 202 to rotate, a chain drives a transition shaft 203 to rotate, clamping teeth on the outer side of a transition gear 2031 on the transition shaft 203 are meshed with clamping teeth on an intermittent rotation gear 3021 to drive the intermittent rotation shaft 302 to rotate 1/4 circles, a rotary table 301 is synchronously driven to rotate 1/4 circles, so that a post clamping mechanism 4 is rotated to the next station, and the clamping teeth on the outer side of the transition gear 2031 are separated from the clamping teeth on the intermittent rotation gear 3021, the driving device 201 continues to drive the main driving shaft 202 to rotate, so that the lower crankshaft 507 is driven to rotate by the engagement of the vertical bevel gear B2032 and the horizontal bevel gear B5071, the lower lifting shaft 505 is driven to move upwards by the lower connecting plate 506, the cutting device 501 moves upwards to cut the lower side of the column clamped in the column clamping mechanism 4 through the leak hole 3011, meanwhile, the vertical bevel gear A2021 at the top end of the main driving shaft 202 is engaged with the horizontal bevel gear A5041 to drive the upper crankshaft 504 to rotate, the upper lifting shaft 502 is driven to move downwards by the upper connecting plate 503 to drive the cutting device 501 to move downwards on the rotating disc 301 to cut the upper side of the column clamped in the column clamping mechanism 4 at the bottom side of the cutting device 501, when the main driving shaft 202 continues to rotate, the cutting device 501 is respectively driven to be drawn out from the leak hole 3011 and to be far away from the column clamping mechanism 4, the clamping teeth outside the transition gear 2031 on the transition shaft 203 are engaged with the clamping teeth on the intermittent gear 3021 again, the intermittent rotating shaft 302 is driven to rotate 1/4 circles again, the turntable 301 is driven to rotate 1/4 circles synchronously, the cylindrical wood clamping mechanism 4 is enabled to rotate to the next station, the cutting device 501 on the upper side and the lower side of the turntable 301 is utilized to complete the cutting processing work of the wood beads in the wood columns in sequence, the wood columns do not need to be turned over, and the wood columns do not need to be pressed manually, but also can ensure that the cutting positions of the lower cutting device 501 and the upper cutting device 501 are in the same vertical direction, ensure that the sizes of the whole upper and lower wood beads after cutting are consistent, improve the processing quality of the wood beads, utilize the cutting space to take the stump, can carry out circular processing, improve the working efficiency and ensure that the cutting teeth can not hurt workers, after the cylindrical wood clamping mechanism 4 on the rotary disc 301 rotates anticlockwise to the next station of the upper cutting device 501, the processed wood columns in the cylindrical wood clamping mechanism 4 are taken out, and new wood columns are put in.

The invention is not described in detail, but is well known to those skilled in the art.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (9)

1. The utility model provides a cutting processingequipment based on machinery is convertible which characterized in that: comprises a frame body (1), a driving mechanism (2) and a sawdust cylinder (6); the inside of the frame body (1) has connected gradually down fagging (101) and last supporting ring (102), and still is connected with semicircle snap ring (1011) on fagging (101) down, actuating mechanism (2) are installed in the inboard bottom of frame body (1) and are connected with station slewing mechanism (3) transmission, and actuating mechanism (2) still cut elevating system (5) transmission with the wooden pearl and be connected, station slewing mechanism (3) are installed in frame body (1) and are established the upside of supporting ring (102) on, wooden pearl cuts elevating system (5) and is equipped with two parts, and one part is established on the upside of carousel (301) and the top of frame body (1), and the downside at carousel (301) and the bottom side of fagging (101) down are established to another part, a wooden chip section of thick bamboo (6) card is gone into in semicircle snap ring (1011).

2. The machine turnover based cutting device according to claim 1, wherein: the driving mechanism (2) comprises a driving device (201), a main driving shaft (202), a vertical bevel gear A (2021), a transition shaft (203), a transition gear (2031) and a vertical bevel gear B (2032), the main driving shaft (202) is connected to an output shaft of the driving device (201) and upwards penetrates through a lower supporting plate (101) and an upper supporting ring (102) in sequence to be connected with the vertical bevel gear A (2021), the driving device (201) is a driving motor and a reducer integrated machine and is fixed on the bottom side of the interior of a frame body (1), the transition shaft (203) is rotatably embedded between the lower supporting plate (101) and the frame body (1) and is connected with the main driving shaft (202) through chain transmission, and the transition shaft (203) is sequentially provided with the vertical bevel gear B (2032) and the transition gear (2031).

3. The machine turnover based cutting device according to claim 1, wherein: the station rotating mechanism (3) comprises a rotary disc (301), a leak hole (3011), an overhanging plate (3012), an intermittent rotating shaft (302), an intermittent rotating gear (3021) and a baffle (3022), the rotary disc (301) is fixedly clamped on the intermittent rotating shaft (302), the intermittent rotating shaft (302) is rotatably embedded in the inner side of the frame body (1), two groups of baffles (3022) are further arranged on the intermittent rotating shaft (302) and are arranged on the upper side and the lower side of the rotary disc (301), the intermittent rotating gear (3021) is further fixedly arranged at the lower end of the intermittent rotating shaft (302), four groups of leak holes (3011) which are annularly arranged are further arranged on the rotary disc (301), the upside of each leak hole (3011) is further connected with a cylindrical wood clamping mechanism (4), the overhanging plate (3012) is further connected on the periphery of the rotary disc (301), the overhanging plate (3012) is arranged right outside the leak hole (3011), the outer end of the rotary disc (301) is further attached to an upper support ring (102), and the leak hole (301) is arranged right above the inner hole of the upper support ring (102).

4. The machine turnover based cutting device according to claim 1, wherein: semicircle snap ring (1011) are established under small opening (3011), and the internal diameter of semicircle snap ring (1011) is greater than the internal diameter of small opening (3011), the square hole has still been seted up to frame body (1) end that semicircle snap ring (1011) just right.

5. The machine turnover based cutting device according to claim 3, wherein: cylindricality wood screens mechanism (4) are including fixed cardboard (401), spacing ring (4011) down, activity cardboard (402), U type pull rod (403), screens spring (404), spacing ring (4011) is connected and is supported and fix directly over small opening (3011) down, and fixed cardboard (401) connect the top rear end of spacing ring (4011) down, activity cardboard (402) are established at the top opposite side of spacing ring (4011) down and are relative with fixed cardboard (401), and the outside end of activity cardboard (402) still is connected with U type pull rod (403), suit screens spring (404) and outwards wear out overhanging board (3012) on U type pull rod (403).

6. The machine turnover based cutting device according to claim 1, wherein: one part of the wooden bead cutting lifting mechanism (5) comprises a cutting device (501), cutting teeth (5011), an upper lifting shaft (502), an upper connecting plate (503), an upper crankshaft (504) and a transverse bevel gear A (5041), the top end of the cutting device (501) is connected with the upper lifting shaft (502) and is arranged on the upper side of the turntable (301), and the ascending and descending shaft (502) penetrates out of the frame body (1) upwards and is connected to the hinged end of the upper connecting plate (503), the other end of the upper connecting plate (503) is rotationally clamped on the upper crankshaft (504), and the horizontal outer end of the upper crankshaft (504) is also connected with a transverse bevel gear A (5041), the transmission ratio of the transverse bevel gear A (5041) to the vertical bevel gear A (2021) is 1:1 and the transverse bevel gear A and the vertical bevel gear A are meshed and connected with each other, a rotating motor is further installed inside the cutting device (501), and cutting teeth (5011) are fixedly connected to the output end of the rotating motor.

7. The machine turnover based cutting device according to claim 1, wherein: the other part of the wood bead cutting lifting mechanism (5) comprises a cutting device (501), a lower lifting shaft (505), a lower connecting plate (506), a lower crankshaft (507) and a transverse bevel gear B (5071), the bottom end of the cutting device (501) is connected to the lower lifting shaft (505) and arranged on the lower side of the turntable (301), the lower lifting shaft (505) downwards penetrates through the lower supporting plate (101) to be connected to the hinged end of the lower connecting plate (506), the other end of the lower connecting plate (506) is rotationally clamped on the lower crankshaft (507), the horizontal outer end of the lower crankshaft (507) is further connected with the transverse bevel gear B (5071), and the transmission ratio of the transverse bevel gear B (5071) to the vertical bevel gear B (2032) is 1:1 and the transverse bevel gear B (5071) and the vertical bevel gear B (2032) are in meshed connection.

8. The machine turnover based cutting device according to claim 3, wherein: the number of the clamping teeth on the periphery of the intermittent rotating gear (3021) is 4 times that of the clamping teeth on the periphery of the transition gear (2031), the clamping teeth on the periphery of the transition gear (2031) can be meshed with the clamping teeth on the periphery of the intermittent rotating gear (3021), and when the top end of the cutting device (501) is drawn out from the leak hole (3011) or the bottom end of the cutting device (501) is far away from the upper end of the cylindrical wood clamping mechanism (4), the transition gear (2031) is just meshed with the intermittent rotating gear (3021).

9. The machine turnover based cutting device according to claim 8, wherein: when the transition gear (2031) is just separated from the intermittent rotation gear (3021), the cutting devices (501) are respectively opposite to the upper side and the lower side of the leak hole (3011).

Images