CN112917317B

CN112917317B - External rotary type grinding device for machining ornaments

Info

Publication number: CN112917317B
Application number: CN202110117372.2A
Authority: CN
Inventors: 陈旭
Original assignee: Suzhou Dongtinghe Intelligent Technology Development Co ltd
Current assignee: Suzhou Dongtinghe Intelligent Technology Development Co ltd
Priority date: 2020-02-21
Filing date: 2020-02-21
Publication date: 2022-09-02
Anticipated expiration: 2040-02-21
Also published as: CN111185820B; CN112917317A; CN111185820A

Abstract

The invention provides an external rotary polishing device for processing ornaments, belongs to the technical field of ornament processing, and solves the problems of low working efficiency and easy injury caused by repeated operation of two hands, and the external rotary polishing device comprises a peach pit main rotating mechanism; the peach-kernel main rotating mechanism is rotatably embedded in the inner side of the frame body and is in transmission connection with the driving mechanism, the driving mechanism can also be in transmission connection with the transition mechanism, the transition mechanism is in transmission connection with the peach-kernel side rotating mechanism through a chain, and the peach-kernel side rotating mechanism is divided into two parts and is respectively arranged on two sides of the peach-kernel main rotating mechanism. The peach pit is tightly pressed between the peach pit polishing sleeve die and the lower peach pit clamping barrel, the lower peach pit clamping barrel drives the peach pit to rotate under the meshing of the main rotating gear and the upper driving gear, the peach pit polishing sleeve die is used for polishing, the peach pit can be driven to rotate 1/4 circles in one direction by pulling the side pull rod outwards, the peach pit polishing sleeve die is used for polishing again after the side pull rod is loosened, and the working efficiency can be improved.

Description

External rotary grinding device for machining ornaments

The application has the following application numbers: 2020101081976, the name is: the invention patent application of 'an external rotary polishing device for processing ornaments' is filed by divisional application, and the application date of the original application is as follows: 21/02/2020.

Technical Field

The invention belongs to the technical field of ornament processing, and particularly relates to an external rotary polishing device for ornament processing.

Background

The peach pit bracelet is a popular ornament, the traditional processing method of the peach pit bracelet is to manually clean peach pits, then a plurality of tools such as abrasive paper, a file and a drill bit are used for polishing the peach pits into a spherical shape and then perforating, one peach pit needs to be polished for several hours, when polishing is carried out, the peach pits are normally placed in a clamping cylinder at the front end of a hand grinding drill, the hand grinding drill is held by one hand, a grinding head is held by the other hand and pressed on the peach pits, when the hand grinding drill drives the peach pits to rotate, the grinding head is held by the other hand to rotate back and forth at the outer ends of the peach pits, the hand grinding drill is turned upside down after repeated polishing, the hand grinding drill is turned off, the peach pits are repeatedly turned upside down, and the polishing is repeated again to enable the peach pits to reach the standard.

If the application number is: in the patent of CN201710809272.X, an intelligent peach pit rounding and punching robot is disclosed, which comprises a bottom plate, a first stepping motor, a supporting plate, a peach pit clamp, two baffles, a first support, a second support, a conveyor belt assembly, a storage box, a first support column, a first electric cylinder, two conical heads, a second support column, a second electric cylinder, two semicircular cutters, a third support column, a second stepping motor, a first servo motor, a tool magazine, a fourth support column, a brush column, a third stepping motor, a feeding box and a fifth support column, and has the following advantages: the peach pit conveying device has the advantages that the peach pits can be sequentially arranged and conveyed out in a specific posture through the unique conveying belt component; the peach pits are taken down from the conveying belt through the specially-made peach pit clamp, and are ground into round through the tool magazine and the semicircular cutter, so that the efficiency and the processing quality are greatly improved.

Based on the aforesaid, the workman needs both hands to operate repeatedly when polishing the peach pit, still need the centre to take off the flip-chip to the peach pit, not only increases workman's labour, makes the workman injured easily, and machining efficiency is low moreover, processingquality is also not high.

Disclosure of Invention

In order to solve the technical problems, the invention provides an external rotary polishing device for processing ornaments, which aims to solve the problems that when workers polish peaches, the workers need to repeatedly operate with two hands and take down and flip the peaches in the middle, so that the labor force of the workers is increased, the workers are easily injured, the processing efficiency is low, and the processing quality is not high.

The invention is used for the purpose and the effect of an external rotary polishing device for processing ornaments, and is achieved by the following specific technical means:

an external rotary polishing device for processing ornaments comprises a peach pit main rotating mechanism; the peach kernel mainly rotates the mechanism and rotates and inlays in the inboard of the frame body and be connected with the actuating mechanism transmission, and actuating mechanism still can be connected with transition mechanism transmission, transition mechanism establishes in the inboard bottom of the frame body, and is connected through chain drive between transition mechanism and the peach kernel side rotation mechanism, peach kernel side rotation mechanism divide into two parts and establishes respectively in the both sides that the peach kernel mainly rotates the mechanism, and goes up screens mechanism and install the upside at peach kernel mainly rotates the mechanism.

Furthermore, the peach pit main rotating mechanism comprises a peach pit lower clamping cylinder, a main rotating shaft and a main rotating gear, the peach pit lower clamping cylinder is fixedly connected to the top of the main rotating shaft, the main rotating shaft vertically rotates and penetrates through the lower end of the inner side of the frame body, and the main rotating gear is clamped at the lower end of the main rotating shaft.

Further, go up screens mechanism and include that the peach pit polishes cover die, go up pull rod and pressure spring A, the peach pit is polished the cover die and is connected the lower extreme of last pull rod and just to under the peach pit screens a section of thick bamboo directly over, and goes up the pull rod and upwards move about and wear out the top of frame body, go up still the cover on the pull rod and be equipped with pressure spring A, and pressure spring A establishes the top side at the peach pit cover die of polishing.

Further, actuating mechanism includes driving motor, adjusts frame, side pull rod, pressure spring B, connecting rod, main drive axle, upper drive gear and lower drive gear, driving motor fixed mounting is in adjusting the frame, and on main drive axle alternates at the lower extreme of adjusting the frame and is connected to driving motor, the upper and lower both ends of adjusting the frame slip the card respectively and adorn in the inboard one end of track frame, and the both ends of adjusting the frame are connected with side pull rod and connecting rod respectively, the cover is equipped with pressure spring B on the side pull rod and alternates the outside of the frame body after passing the baffle, upper drive gear and lower drive gear have been clamped respectively to the lower extreme of main drive axle, and the external diameter of upper drive gear is the same and intermeshing with the external diameter of main change gear.

Furthermore, the peach-stone side-turning mechanism comprises a peach-stone side-clamping cylinder A, a side-turning shaft A, a transverse bevel gear A, a rotating sleeve A, a threaded rod, a vertical shaft A, a vertical bevel gear A, a side-turning gear, a linkage shaft and a tooth-lacking gear, the peach-stone side-clamping cylinder A is connected with the front end of the side-turning shaft A, the side rotating shaft A is movably inserted into one end of the inner side of the frame body, the threaded rod is forwards screwed into a threaded hole of the frame body from the outer end of the frame body through threads, and is connected with a rotary sleeve A at the rear end of the side rotating shaft A, a transverse bevel gear A is also clamped on the side rotating shaft A, the vertical shaft A is vertically inserted at the lower end of the side rotating shaft A, the upper end of the vertical shaft A is clamped with a vertical bevel gear A, the lower end of the vertical shaft A is also clamped with a side rotating gear, the universal driving shaft is rotatably embedded at one end of the vertical shaft A, and the gear with the missing teeth is clamped on the universal driving shaft.

Furthermore, the peach-stone side-turning mechanism also comprises a reverse shaft, a reverse gear, a peach-stone side clamping cylinder B, a side-turning shaft B, a transverse bevel gear B, a rotating sleeve B, a vertical shaft B and a vertical bevel gear B, wherein the peach-stone side clamping cylinder B is connected at the front end of the side-turning shaft B, and the side rotating shaft B is movably inserted at the other end of the inner side of the frame body, the outer end of the side rotating shaft B is connected with a rotating sleeve B and is connected with the other end of the connecting rod, a transverse bevel gear B is also clamped on the side rotating shaft B, the vertical shaft B is vertically inserted at the lower end of the side rotating shaft B, and the upper end of the vertical shaft B is clamped with a vertical bevel gear B, the reverse shaft is rotationally embedded at the other end of the vertical shaft A, and the reverse shaft is in transmission connection with the vertical shaft B through a chain, a reverse gear is clamped on the reverse shaft, and the outer diameter of the reverse gear is the same as that of the side rotating gear and is meshed with the side rotating gear.

Furthermore, the outer diameter of the gear with the missing teeth is the same as that of the gear with the side rotation, and 1/4 circles of clamping teeth are arranged at the outer peripheral end of the gear with the missing teeth and can be meshed with the clamping teeth on the gear with the side rotation.

Furthermore, the outer diameters of the peach-stone side clamping cylinder A and the peach-stone side clamping cylinder B are the same and are 1/2 times of the outer diameter of the peach-stone lower clamping cylinder.

Further, the transition mechanism comprises a transition shaft A, an upper transition gear A, a lower transition gear A, a transition shaft B, an upper transition gear B, a lower transition gear B, a transition shaft C and a transition gear C, wherein the transition shaft A, the transition shaft B and the transition shaft C are respectively rotatably embedded in the inner side of the frame body, the transition shaft C is in transmission connection with the linkage shaft through a chain, the transition gear C is clamped on the transition shaft C and is in meshing connection with the lower transition gear B, the outer diameter of the transition gear C is 2 times that of the lower transition gear B, the upper transition gear B and the lower transition gear B are clamped on the transition shaft B, the outer diameter of the upper transition gear B is 2 times that of the lower transition gear A and are meshed with each other, and the upper transition gear A and the lower transition gear A are clamped on the transition shaft A.

Furthermore, when the adjusting frame is pulled to the other end of the track frame through the side pull rod, the upper driving gear is separated from the main rotating gear, the lower driving gear is meshed with the upper transition gear A, the transverse bevel gear B is meshed with the vertical bevel gear B under the driving of the connecting rod, and the outer diameter of the upper transition gear A is 2 times that of the lower driving gear.

The invention at least comprises the following beneficial effects:

according to the invention, the peach pit main rotating mechanism is arranged, the upper pull rod is pulled upwards to lift the peach pit polishing sleeve mold, the peach pit is placed on the lower peach pit clamping cylinder, the peach pit is tightly pressed between the peach pit polishing sleeve mold and the lower peach pit clamping cylinder under the driving of the pressure spring A, the main rotating shaft is driven to rotate through the main driving shaft under the meshing action of the main rotating gear on the main rotating shaft and the upper driving gear, the peach pit is driven to rotate through the lower peach pit clamping cylinder, and the upper end of the peach pit is polished through the peach pit polishing sleeve mold.

The invention also provides a peach-stone side-turning mechanism, which pushes a side rotating shaft A to move forwards and make a peach-stone side clamping cylinder A attached to the side surface of a peach stone by rotating a threaded rod, simultaneously, a transverse bevel gear A is engaged with a vertical bevel gear A, a side pull rod can be pulled outwards to enable an adjusting frame to drive a driving motor and a main driving shaft to move to the other end of a track frame, simultaneously, the side rotating shaft B is pushed to move forwards by a connecting rod and make the peach-stone side clamping cylinder B attached to the other side surface of the peach stone, the transverse bevel gear B is engaged with the vertical bevel gear B, simultaneously, an upper driving gear is separated from a main rotating gear, a lower driving gear is engaged with an upper transition gear A to drive an internal gear of a transition mechanism to rotate, a linkage shaft is driven to rotate by a chain, after a latch on a missing gear is engaged with a latch on the side rotating gear, the side rotating gear and the vertical shaft A are driven to rotate 1/4 circles, and the peach-stone side clamping cylinder A is rotated 1/4 circles under the action of the bevel gear, meanwhile, the side rotating gear drives the reverse gear to rotate 1/4 rings, the vertical shaft B is driven by the chain to rotate 1/4 rings in the opposite direction of the vertical shaft A, the peach pit side clamping cylinder B is driven by the bevel gear to rotate 1/4 rings in the same direction of the rotation of the peach pit side clamping cylinder A, the peach pits are driven to rotate 1/4 rings in one direction, after the side pull rod is loosened, the adjusting frame returns under the action of the pressure spring B, the upper driving gear is meshed with the main rotating gear, the peach pits are polished by the peach pit polishing sleeve die again, the working efficiency can be effectively improved, the labor force of workers is reduced, and the phenomenon that the fingers of the workers hold and pinch the polishing head for a long time to be damaged can be avoided.

Drawings

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

Fig. 2 is another schematic axial view of fig. 1 according to the present invention.

Fig. 3 is a schematic view of the peach pit polishing sleeve of fig. 1 of the present invention as molded onto the top of a peach pit.

Fig. 4 is an enlarged schematic view of the structure at a of the present invention.

Fig. 5 is a front view of the peach-stone side clamping barrel A of fig. 3 with the threaded rod screwed forward to be pressed against the peach-stone side.

Fig. 6 is a schematic view of the backside structure of fig. 5 according to the present invention.

Fig. 7 is a schematic structural view illustrating that the adjusting frame is pulled to the other end of the track frame by the side pull rod in fig. 5 according to the present invention.

Fig. 8 is another axial view of the rear side of fig. 7 in accordance with the present invention.

Fig. 9 is an enlarged schematic view of the invention at B.

Fig. 10 is another axial view of the front side of fig. 7 in accordance with the present invention.

Fig. 11 is an enlarged view of the structure at C of the present invention.

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

1. a frame body; 101. a track frame; 1011. a baffle plate; 2. a peach pit main rotating mechanism; 201. a walnut lower clamping cylinder; 202. a main rotating shaft; 2021. a main rotating gear; 3. an upper clamping mechanism; 301. polishing peach kernels and sleeving molds; 302. an upper pull rod; 303. a pressure spring A; 4. a drive mechanism; 401. a drive motor; 402. an adjusting frame; 4021. a side pull rod; 4022. a pressure spring B; 4023. a connecting rod; 403. a main drive shaft; 4031. an upper drive gear; 4032. a lower drive gear; 5. a peach pit lateral rotation mechanism; 501. a walnut side clamping cylinder A; 502. a side rotating shaft A; 5021. a transverse bevel gear A; 5022. rotating the sleeve A; 503. a threaded rod; 504. a vertical axis A; 5041. a vertical bevel gear A; 5042. a side-turning gear; 505. a linkage shaft; 5051. a gear with missing teeth; 506. a counter shaft; 5061. a reverse gear; 507. a walnut side clamping cylinder B; 508. a side rotating shaft B; 5081. a transverse bevel gear B; 5082. a rotating sleeve B; 509. a vertical axis B; 5091. a vertical bevel gear B; 6. a transition mechanism; 601. a transition axis A; 6011. an upper transition gear A; 6012. a lower transition gear A; 602. a transition axis B; 6021. an upper transition gear B; 6022. a lower transition gear B; 603. a transition axis C; 6031. a transition gear C.

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.

The embodiment is as follows:

as shown in figures 1 to 11:

the invention provides an external rotary polishing device for processing ornaments, which comprises a peach pit main rotating mechanism 2; the peach-stone main rotating mechanism 2 is rotatably embedded in the inner side of the frame body 1 and is in transmission connection with the driving mechanism 4, the driving mechanism 4 can also be in transmission connection with the transition mechanism 6, the transition mechanism 6 is arranged at the bottom end of the inner side of the frame body 1, the transition mechanism 6 is in transmission connection with the peach-stone side rotating mechanism 5 through a chain, the peach-stone side rotating mechanism 5 is divided into two parts and is respectively arranged on two sides of the peach-stone main rotating mechanism 2, and the upper clamping mechanism 3 is arranged on the upper side of the peach-stone main rotating mechanism 2.

Wherein, the peach pit main rotating mechanism 2 comprises a peach pit lower clamping cylinder 201, a main rotating shaft 202 and a main rotating gear 2021, the peach pit lower clamping cylinder 201 is fixedly connected with the top of the main rotating shaft 202, the main rotating shaft 202 vertically rotates and is inserted into the lower end of the inner side of the frame body 1, the lower end of the main rotating shaft 202 is also clamped with the main rotating gear 2021, wherein, the upper clamping mechanism 3 comprises a peach pit polishing sleeve mold 301, an upper pull rod 302 and a pressure spring A303, the peach pit polishing sleeve mold 301 is connected with the lower end of the upper pull rod 302 and is right above the peach pit lower clamping cylinder 201, the upper pull rod 302 upwards movably penetrates out of the top end of the frame body 1, the upper pull rod 302 is also sleeved with the pressure spring A303, the pressure spring A303 is arranged on the top side of the peach pit polishing sleeve mold 301, so that the peach pit can be conveniently placed in the peach pit lower clamping cylinder 201, the peach pit is tightly pressed between the peach pit polishing sleeve mold 301 and the peach pit lower clamping sleeve mold 201 by the action of the peach pit sleeve mold 301 and the pressure spring A303, screens section of thick bamboo 201 drives the peach pit and rotates under the accessible peach pit to utilize the peach pit cover mould 301 of polishing to polish the peach pit.

Wherein, the driving mechanism 4 comprises a driving motor 401, an adjusting frame 402, a side pull rod 4021, a pressure spring B4022, a connecting rod 4023, a main driving shaft 403, an upper driving gear 4031 and a lower driving gear 4032, the driving motor 401 is fixedly installed in the adjusting frame 402, the main driving shaft 403 is inserted into the lower end of the adjusting frame 402 and connected to the driving motor 401, the upper and lower ends of the adjusting frame 402 are respectively clamped at one end of the inner side of the track frame 101 in a sliding manner, the two ends of the adjusting frame 402 are respectively connected with the side pull rod 4021 and the connecting rod 4023, the pressure spring B4022 is sleeved on the side pull rod 4021 and inserted into the outer side of the frame body 1 after penetrating through a baffle 1011, the lower end of the main driving shaft is respectively clamped with an upper driving gear 4031 and a lower driving gear 4032, the outer diameter of the upper driving gear 4031 is the same as the outer diameter of the main rotating gear 2021 and is mutually engaged, the adjusting frame 402 can drive the driving motor 401 and the main driving shaft 403 to move to the other end of the track frame 101 by pulling the side pull rod 4021 outwards, the upper drive gear 4031 is disengaged from the main rotation gear 2021.

Wherein, the peach-stone side-turning mechanism 5 comprises a peach-stone side blocking cylinder A501, a side turning shaft A502, a transverse bevel gear A5021, a rotating sleeve A5022, a threaded rod 503, a vertical shaft A504, a vertical bevel gear A5041, a side turning gear 5042, a linkage shaft 505 and a tooth-missing gear 5051, the peach-stone side blocking cylinder A501 is connected with the front end of the side turning shaft A502, the side turning shaft A502 is movably inserted into one end of the inner side of the frame body 1, the threaded rod 503 is screwed into the threaded hole of the frame body 1 from the outer end of the frame body 1 forwards through threads and is connected to the rotating sleeve A5022 at the rear end of the side turning shaft A502, the transverse bevel gear A5021 is clamped on the side turning shaft A502, the vertical shaft A504 vertically penetrates through the lower end of the side turning shaft A502, the upper end of the vertical shaft A504 is clamped with the vertical bevel gear A5041, the lower end of the vertical shaft A504 is clamped with the side turning gear A42, the lower end of the vertical shaft A504, the side turning gear A50542 is clamped on the linkage shaft 505, the side turning shaft A503, the side blocking cylinder A501 pushes the side blocking cylinder A502 forwards through the tooth-missing gear 501, meanwhile, the transverse bevel gear A5021 is meshed with the vertical bevel gear A5041, when the adjusting frame 402 drives the driving motor 401 and the main driving shaft 403 to move to the other end of the track frame 101 by pulling the side pull rod 4021 outwards, the linkage shaft 505 and the edentulous gear 5051 can be driven to rotate through the transition mechanism 6, after the latch on the edentulous gear 5051 is meshed with the latch on the side turning gear 5042, the side turning gear 5042 and the vertical shaft A504 are driven to rotate 1/4 circles, and the peach pit side blocking cylinder A501 is driven to rotate 1/4 circles under the meshing action of the transverse bevel gear A5021 and the vertical bevel gear A5041.

Wherein, the peach-stone side rotating mechanism 5 also comprises a reverse shaft 506, a reverse gear 5061, a peach-stone side clamping cylinder B507, a side rotating shaft B508, a horizontal bevel gear B5081, a rotating sleeve B5082, a vertical shaft B509 and a vertical bevel gear B5091, the peach-stone side clamping cylinder B507 is connected with the front end of the side rotating shaft B508, the side rotating shaft B508 is movably inserted at the other end of the inner side of the frame body 1, the outer end of the side rotating shaft B508 is connected with the rotating sleeve B5082 and is connected with the other end of the connecting rod 4023, the horizontal bevel gear B5081 is clamped on the side rotating shaft B508, the vertical shaft B509 is vertically inserted at the lower end of the side rotating shaft B508, the upper end of the vertical shaft B509 is clamped with the vertical bevel gear B5091, the reverse shaft 506 is rotatably embedded at the other end of the vertical shaft A504, the reverse shaft 506 is connected with the vertical shaft B509 through chain transmission, the reverse shaft 506 is clamped with the reverse gear 5061, the external diameter of the reverse gear 5061 is the external diameter of the side rotating gear 5041 is the same as the external diameter of the side rotating gear 5041 and is engaged with each other, when the vertical shaft A504, the vertical shaft A504 is rotated, the side rotating gear 5042 drives the reverse gear 5061 to rotate 1/4 circles, drives the vertical shaft B509 to rotate 1/4 circles in the opposite direction of the vertical shaft A504 through a chain, and drives the peach-pit side clamping cylinder B507 to rotate 1/4 circles in the same direction as the peach-pit side clamping cylinder A501 through the meshing action of the horizontal bevel gear B5081 and the vertical bevel gear B5091.

The outer diameter of the gear 5051 is the same as that of the

gear

5041, 1/4 circles of latches are arranged at the outer circumferential end of the gear 5051 and can be meshed with the latches on the gear 5041, and after the latches on the gear 5051 are meshed with the latches on the gear 5042, the gears 5042 and the vertical shaft a504 are driven to rotate 1/4 circles.

The outer diameters of the peach-kernel side clamping barrel A501 and the peach-kernel side clamping barrel B507 are the same and are 1/2 times of the outer diameter of the peach-kernel lower clamping barrel 201, and the peach-kernel side clamping barrel A501 and the peach-kernel side clamping barrel B507 are prevented from contacting the side face of a peach kernel to interfere with the peach-kernel lower clamping barrel 201 and the peach-kernel polishing sleeve mold 301.

Wherein, the transition mechanism 6 comprises a transition shaft A601, an upper transition gear A6011, a lower transition gear A6012, a transition shaft B602, an upper transition gear B6021, a lower transition gear B6022, a transition shaft C603 and a transition gear C6031, the transition shaft A601, the transition shaft B602 and the transition shaft C603 are respectively and rotatably embedded at the inner side of the frame body 1, the transition shaft C603 is connected with the linkage shaft 505 through chain transmission, the transition gear C6031 is clamped on the transition shaft C603 and is in meshing connection with the lower transition gear B6022, the outer diameter of the transition gear C6031 is 2 times of the outer diameter of the lower transition gear B6022, the upper transition gear B6021 and the lower transition gear B6022 are clamped on the transition shaft B602, the outer diameter of the upper transition gear B6021 is 2 times of the lower transition gear A6012 and is meshed with each other, the upper transition gear A6011 and the lower transition gear A6012 are clamped on the transition shaft A601, when the adjusting frame 402 is pulled to the other end of the track 4021 through the side pull rod 101, the upper transition gear A2021 is disengaged from the main drive gear 2021, and the lower driving gear 4032 is meshed with the upper transition gear a6011, the transverse bevel gear B5081 is meshed with the vertical bevel gear B5091 under the driving of the connecting rod 4023, the outer diameter of the upper transition gear a6011 is 2 times of the outer diameter of the lower driving gear 4032, after the lower driving gear 4032 is meshed with the upper transition gear a6021, the lower driving gear 4032 can drive the upper transition gear a6021 to rotate and drive the lower transition gear a6012 to rotate through the transition shaft a601, meanwhile, the lower transition gear a6012 drives the upper transition gear B6021 to rotate and drive the lower transition gear B6022 to rotate through the transition shaft B602, and drive the transition gear C6031 to rotate with the transition shaft C603, and when the lower driving gear 4032 rotates for 8 circles, the transition gear C6031 rotates with the transition shaft C603 for 1 circle.

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

the first step is as follows: the upper pull rod 302 is pulled upwards to lift the peach pit polishing sleeve mold 301, the peach pit is placed on the peach pit lower clamping barrel 201, the upper pull rod 302 is loosened, the peach pit is tightly pressed between the peach pit polishing sleeve mold 301 and the peach pit lower clamping barrel 201 under the driving of the pressure spring A303, the side rotating shaft A502 is pushed to move forwards through the rotating threaded rod 503, the peach pit side clamping barrel A501 is attached to the side face of the peach pit, meanwhile, the transverse bevel gear A5021 is meshed with the vertical bevel gear A5041, the driving motor 401 is started to drive the main driving shaft 403 to rotate, the main rotating shaft 202 is driven to rotate under the meshing action of the upper driving gear 4031 and the main rotating gear 2021, the peach pit lower clamping barrel 201 is used for driving the peach pit to rotate, and the upper end of the peach pit is polished for a period of time through the peach pit polishing sleeve mold 301.

The second step is that: by pulling the side pull rod 4021 outwards, the adjusting frame 402 drives the driving motor 401 and the main driving shaft 403 to move to the other end of the track frame 101, meanwhile, the connecting rod 4023 pushes the side rotating shaft B508 to move forwards and the peach pit side clamping cylinder B507 is attached to the other side surface of the peach pit, the transverse bevel gear B5081 is meshed with the vertical bevel gear B5091, simultaneously the upper driving gear 4031 is disengaged from the main rotating gear 2021, the lower driving gear 4032 is meshed with the upper transition gear A6021 to drive the upper transition gear A6021 to rotate, under the cooperation of the internal gears 6026026, the linkage shaft 505 and the edentulous gear 5051 are driven to rotate through a chain, the lower driving gear 4032 rotates 8 circles, the edentulous gear 5051 rotates 1 circles, and after the teeth on the edentulous gear 5051 are meshed with the teeth on the side rotating gear 5042, the side rotating gear 5042 and the vertical shaft A504 rotate 1/4 circles, and the peach pit side clamping cylinder A501 rotates 1/4 circles under the meshing action of the transverse 5021 and the vertical bevel gear 5041, meanwhile, the side rotating gear 5042 drives the reverse gear 5061 to rotate 1/4 circles, the vertical shaft B509 is driven by a chain to rotate 1/4 circles in the opposite direction of the vertical shaft A504, the peach pit side clamping cylinder B507 is driven by the meshing action of the transverse bevel gear B5081 and the vertical bevel gear B5091 to rotate 1/4 circles in the same direction as the peach pit side clamping cylinder A501, the peach pits are driven to rotate 1/4 circles in one direction, after the side pull rod 4021 is loosened, the adjusting frame 402 returns under the action of the pressure spring B4022, the upper driving gear 4031 is meshed with the main rotating gear 2021, the peach pits are polished by the peach pit polishing sleeve mold 301 again, the operation is repeated for at least 4 times, and the outer surfaces of the peach pits are completely polished.

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

1. The utility model provides a be used for ornament processing to use outside rotation type grinding device which characterized in that: comprises a peach pit main rotating mechanism (2); the peach pit main rotating mechanism (2) is rotatably embedded in the inner side of the frame body (1) and is in transmission connection with the driving mechanism (4), the driving mechanism (4) can also be in transmission connection with the transition mechanism (6), the transition mechanism (6) is arranged at the inner side bottom end of the frame body (1), the transition mechanism (6) is connected with the peach pit side rotating mechanism (5) through chain transmission, the peach pit side rotating mechanism (5) is divided into two parts and is respectively arranged on two sides of the peach pit main rotating mechanism (2), the upper clamping mechanism (3) is arranged on the upper side of the peach pit main rotating mechanism (2), the peach pit main rotating mechanism (2) comprises a peach pit lower clamping cylinder (201), a main rotating shaft (202) and a main rotating gear (2021), the peach pit lower clamping cylinder (201) is fixedly connected to the top of the main rotating shaft (202), and the main rotating shaft (202) vertically rotates to penetrate through the inner side lower end of the frame body (1), the lower end of the main rotating shaft (202) is also clamped with a main rotating gear (2021), the driving mechanism (4) comprises a driving motor (401), an adjusting frame (402), a side pull rod (4021), a pressure spring B (4022), a connecting rod (4023), a main driving shaft (403), an upper driving gear (4031) and a lower driving gear (4032), the driving motor (401) is fixedly arranged in the adjusting frame (402), the main driving shaft (403) is inserted into the lower end of the adjusting frame (402) and connected to the driving motor (401), the upper end and the lower end of the adjusting frame (402) are respectively clamped at one end of the inner side of the track frame (101) in a sliding mode, the two ends of the adjusting frame (402) are respectively connected with the side pull rod (4021) and the connecting rod (4023), when the adjusting frame (402) is pulled to the other end of the track frame (101) through the side pull rod (4021), the upper driving gear (4031) is separated from the main rotating gear (2021), and the lower driving gear (4032) is meshed with the upper transition gear A (6011), the transverse bevel gear B (5081) is meshed with the vertical bevel gear B (5091) under the driving of the connecting rod (4023), the outer diameter of the upper transition gear A (6011) is 2 times of that of the lower driving gear (4032), the side pull rod (4021) is sleeved with a pressure spring B (4022) and penetrates through the baffle (1011) to penetrate to the outer side of the frame body (1), the lower end of the main driving shaft (403) is respectively clamped with the upper driving gear (4031) and the lower driving gear (4032), the outer diameter of the upper driving gear (4031) is the same as that of the main rotating gear (2021) and is meshed with each other, and the peach-core side rotating mechanism (5) comprises a peach-core side clamping cylinder A (501), a side rotating shaft A (502), the transverse bevel gear A (5021), a rotating sleeve A (5022), a threaded rod (503), a vertical shaft A (504), the vertical bevel gear A (5041), The device comprises a side rotating gear (5042), a linkage shaft (505) and a tooth-missing gear (5051), wherein a peach-stone side clamping barrel A (501) is connected to the front end of the side rotating shaft A (502), the side rotating shaft A (502) is movably inserted into one end of the inner side of a frame body (1), a threaded rod (503) is screwed into a threaded hole of the frame body (1) forwards from the outer end of the frame body (1) through threads and is connected to a rotating sleeve A (5022) at the rear end of the side rotating shaft A (502), a transverse bevel gear A (5021) is clamped on the side rotating shaft A (502), a vertical shaft A (504) is vertically inserted into the lower end of the side rotating shaft A (502), a vertical bevel gear A (5041) is clamped at the upper end of the vertical shaft A (504), a side rotating gear (5042) is clamped at the lower end of the vertical shaft A (504), the linkage shaft (505) is rotatably embedded at one end of the vertical shaft A (504), and the tooth-missing gear (5051) is clamped on the linkage shaft (505), the outer diameter of the edentulous gear (5051) is the same as that of the side-turning gear (5041), the outer peripheral end of the edentulous gear (5051) is provided with 1/4 circles of latches and can be meshed with the latches on the side-turning gear (5041), the peach-kernel side-turning mechanism (5) further comprises a reverse shaft (506), a reverse gear (5061), a peach-kernel side latch cylinder B (507), a side-turning shaft B (508), a transverse bevel gear B (5081), a rotating sleeve B (5082), a vertical shaft B (509) and a vertical bevel gear B (5091), the peach-kernel side latch cylinder B (507) is connected to the front end of the side-turning shaft B (508), the side-turning shaft B (508) is movably inserted into the other end of the inner side of the frame body (1), the outer end of the side-turning shaft B (508) is connected with the rotating sleeve B (5082) and is connected with the other end of the connecting rod (4023), the transverse bevel gear B (5081) is also clamped on the side-turning shaft B (508), the vertical shaft B (509) is vertically inserted at the lower end of the side rotating shaft B (508), the upper end of the vertical shaft B (509) is clamped with a vertical bevel gear B (5091), the reverse shaft (506) is rotatably embedded at the other end of the vertical shaft A (504), the reverse shaft (506) is connected with the vertical shaft B (509) in a chain transmission manner, a reverse gear (5061) is clamped on the reverse shaft (506), the outer diameter of the reverse gear (5061) is identical to that of the side rotating gear (5041) and is mutually meshed, the transition mechanism (6) comprises a transition shaft A (601), an upper transition gear A (6011), a lower transition gear A (6012), a transition shaft B (602), an upper transition gear B (6021), a lower transition gear B (6022), a transition shaft C (603) and a transition gear C (6031), and the transition shaft A (601), the transition shaft B (602) and the transition shaft C (603) are respectively rotatably embedded in the frame body (1), the transition shaft C (603) is in transmission connection with the linkage shaft (505) through a chain, the transition gear C (6031) is clamped on the transition shaft C (603) and is in meshing connection with the lower transition gear B (6022), the outer diameter of the transition gear C (6031) is 2 times of that of the lower transition gear B (6022), the upper transition gear B (6021) and the lower transition gear B (6022) are clamped on the transition shaft B (602), the outer diameter of the upper transition gear B (6021) is 2 times of that of the lower transition gear A (6012) and is meshed with each other, and the upper transition gear A (6011) and the lower transition gear A (6012) are clamped on the transition shaft A (601);

the outer diameters of the peach-stone side clamping cylinder A (501) and the peach-stone side clamping cylinder B (507) are the same and are 1/2 of the outer diameter of the peach-stone lower clamping cylinder (201);

the upper clamping mechanism (3) comprises a peach pit polishing sleeve die (301), an upper pull rod (302) and a pressure spring A (303), the peach pit polishing sleeve die (301) is connected to the lower end of the upper pull rod (302) and is just opposite to the position right above the peach pit lower clamping cylinder (201), and the upper pull rod (302) upwards movably penetrates out of the top end of the frame body (1);

the upper pull rod (302) is pulled upwards to lift the peach pit polishing sleeve mold (301), the peach pits are placed on the peach pit lower clamping barrel (201), the upper pull rod (302) is released, and the peach pits are tightly pressed between the peach pit polishing sleeve mold (301) and the peach pit lower clamping barrel (201) under the drive of the pressure spring A (303), the side rotating shaft A (502) is pushed to move forwards by rotating the threaded rod (503) and the peach-stone side clamping cylinder A (501) is attached to the side surface of the peach stone, meanwhile, the transverse bevel gear A (5021) is meshed with the vertical bevel gear A (5041), the driving motor (401) is started to drive the main driving shaft (403) to rotate, the upper end of the peach pit is polished for a period of time by the peach pit polishing sleeve die (301) by driving the main rotating shaft (202) to rotate under the meshing action of the upper driving gear (4031) and the main rotating gear (2021) and driving the peach pit to rotate by using the peach pit lower clamping cylinder (201).

2. An external rotary dressing apparatus for use in the processing of decorative articles as defined in claim 1, wherein: the upper pull rod (302) is further sleeved with a pressure spring A (303), and the pressure spring A (303) is arranged on the top side of the peach pit polishing sleeve die (301).