CN112454471A

CN112454471A - Mould stick section structure is pour in button production

Info

Publication number: CN112454471A
Application number: CN202011211906.XA
Authority: CN
Inventors: 计赫强
Original assignee: Ludao Wenzhou Clothing Co ltd
Current assignee: Ludao Wenzhou Clothing Co ltd
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2021-03-09

Abstract

The invention discloses a button production pouring mold rod slicing structure which comprises an outer shell, a height adjusting flat plate and a transmission unit, wherein the outer shell is provided with a groove; an outer shell: the round array has arranged the discharge opening in the left end, and its left side center is fixed with the motor, the output of motor passes the left end of shell body and is fixed with the sword carousel of carrying, the circular array in side of sword carousel has arranged the slotting tool, the activity interlude has the slicing knife in the slotting tool. This mould stick section structure is pour in button production, at first can only can realize the rotation of slicing knife and two functions of transporting of button rod through a motor work, the energy has been practiced thrift, reduce the operation cost of mill, and slice a plurality of button rods simultaneously, slicing efficiency has been improved, and can concentrate the collection to the button after the section, prevent that the button from falling out outside this device at will, and can restrict the motion of rod, guarantee the stability of rod when the section, improve the section quality of button.

Description

Mould stick section structure is pour in button production

Technical Field

The invention relates to the technical field of button production equipment, in particular to a button production pouring mold rod slicing structure.

Background

The button is a fastener used for connecting lappets at two sides on clothes, the original function is used for connecting the lappets of the clothes, the button is gradually developed to have artistry and decorativeness besides the original function, namely individuation, the good button can enable the clothes to be more perfect, the button plays a role of 'drawing a dragon point eye', and plays a certain role in beauty, particularly, a plurality of green and florid decorative buttons appear on female clothes, in detail, the button is connected with the lappet of the clothes, namely the button is not connected with the lappet like a wind-made clothes belt connecting button, but the button is used to combine the two into one, the button is called as a button, the polyester button is produced by adopting a centrifugal casting type bar casting method, and the production process is as follows: making into plate or bar, cutting plate, cutting bar, heat treating, shaving bottom, milling groove, drilling hole, etc.; in general button cutting equipment, independent operation is often performed through a feeding structure and a slicing structure, a plurality of motors and other equipment are used for outputting power, energy is consumed, the operation cost of a factory is increased, and a common slicing device can only slice one button bar, so that the slicing efficiency is low; see in the design that the comparison application number is 201620161408.1 provided, this design can transport the button rod and cut into slices the button rod, but this design at first can only carry out the section of a rod once, and efficiency is slower to when transporting the button, because the button rod is mostly cylindric, and if do not restrict when the cutting, then can make the rod roll, influence section efficiency.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the existing defects and provide a die rod slicing structure for button production and pouring, firstly, two functions of the rotation of a slicing knife and the conveying of button rods can be realized only by one motor, so that the energy is saved, the operation cost of a factory is reduced, a plurality of button rods are simultaneously sliced, the slicing efficiency is improved, the buttons can be intensively collected after being sliced, the buttons are prevented from falling out of the device randomly, the movement of the rods can be limited, the stability of the rods during slicing is ensured, the slicing quality of the buttons is improved, and the problems in the background technology can be effectively solved.

In order to achieve the purpose, the invention provides the following technical scheme: a button production pouring mold rod slicing structure comprises an outer shell, a height adjusting flat plate and a transmission unit;

an outer shell: the discharge holes are arranged in a circular array in the left end, the center of the left side of the shell is fixed with a motor, the output end of the motor penetrates through the left end of the shell to be fixed with a knife-carrying turntable, the side surface of the knife-carrying turntable is circularly arrayed with knife inserting grooves, the knife cutting grooves are movably inserted with slicing knives, the slicing knife and the discharge hole are arranged correspondingly left and right, threaded holes are arranged in a linear array in the right side of the slotting tool groove and one end of the slicing knife in the slotting tool groove, a second abutting screw is inserted in the internal thread of the threaded hole, the left end of the second abutting screw abuts against the left side of the cutter slot, the right end of the outer shell is circularly arrayed with a feeding hole, the feeding hole and the discharging hole are arranged in a left-right corresponding way, the motor drives the cutter carrying rotary disc to rotate, the cutter carrying rotary disc drives the slicing cutter to rotate, so that the slicing cutter slices the button bar, and the second abutting screw can be rotated out to conveniently take down the slicing cutter;

a transmission unit: the device comprises a threaded top cover, a pipe clamping ring, a threaded ring, a connecting frame, a connecting plate, a through threaded rod, a harmonic speed reducer and a supporting frame, wherein the lower end of the supporting frame is fixed on the left side inside the outer shell, the harmonic speed reducer is installed in the upper end of the supporting frame, the input end of the harmonic speed reducer is fixed at the center of the right side of a cutter-carrying turntable, the output end of the harmonic speed reducer is fixed with the through threaded rod, the right end of the through threaded rod rotates on the right side inside the outer shell, the threaded ring is sleeved on the right end thread of the through threaded rod, the connecting plate is arranged on the side circular array of the threaded ring, the pipe clamping ring is fixed at the other end of the connecting plate, the threaded top cover is inserted in the right end inner thread of the pipe clamping ring, the feeding hole is penetrated through by the left and right movement of the, a through hole is formed in one side of the connecting frame, the connecting plate movably penetrates through the through hole, the pipe clamping ring is located in the connecting frame, the rotating speed transmitted from the cutter-carrying rotating disc can be reduced through the harmonic speed reducer, the through threaded rod is driven to rotate, the through threaded rod drives the threaded ring to move left and right, the pipe clamping ring and the threaded top cover are driven to move left and right, the pipe clamping ring and the threaded top cover drive the button bar to move left, namely, the button bar can be sliced and conveyed by using one motor, energy consumption is reduced, and operation cost is saved;

wherein: the motor also comprises a singlechip which is fixed on the right side of the outer shell, the input end of the singlechip is electrically connected with the output end of an external power supply, and the output end of the singlechip is electrically connected with the input end of the motor.

Furthermore, the button bar anti-friction device further comprises an anti-friction wheel, the anti-friction wheel rotates in the heightening flat plate through a rotating shaft, the linear array of the anti-friction wheel is arranged in the heightening flat plate, friction between the heightening flat plate and the button bar is reduced through the anti-friction wheel, and the button bar is prevented from being abraded.

Furthermore, the button piece that still includes the bearer bar, fixes at the left side center of shell body, the motor is located the bearer bar, avoids falling from the discharge opening of the top through the bearer bar work of button piece interference motor.

Further, still including connecing the material frame and pouring out the hole, connect the material frame to fix the left side at the shell body, the front side lower extreme that connects the material frame is equipped with the pouring out hole, the protection frame is located connects the material frame, accepts the button piece that cuts that falls through connecing the material frame to make the button piece concentrate from pouring out the hole and fall out, connect the rear end height of the inside downside of material frame to be higher than the front end height, make things convenient for falling forward of button piece, avoid the button piece to persist in connecing the material frame.

Furthermore, the height-adjusting flat plate is movably inserted into the lower end of the connecting frame up and down, the lower side of the height-adjusting flat plate is rotatably connected with a first abutting screw, the lower end of the first abutting screw penetrates through the lower side of the connecting frame in a threaded manner, the left end of the height-adjusting flat plate and the slicing knife are arranged in a left-right corresponding manner, the height of the height-adjusting flat plate can be adjusted by rotating the first abutting screw, and the height-adjusting flat plate is matched with the pipe clamping ring to support the button bar; .

Further, still including the flank arc board, have two and symmetry to set up, two flank arc boards are fixed respectively and are being connect the upside front and back end of material frame, avoid the button piece to the front and back of the upper end of connecing the material frame to fall out through the flank arc board.

Furthermore, the button bar connecting device further comprises a connecting pipe semi-arc table, the circular array is arranged on the right side of the outer shell and corresponds to the left side and the right side of the feeding hole, and the button bar is connected with the connecting pipe semi-arc table and is convenient to insert into the feeding hole.

Furthermore, the screw thread top cover further comprises a twist-pull handle which is fixed on the right side of the screw thread top cover, and the screw thread top cover can be conveniently rotated and pulled out through the twist-pull handle.

Further, still including supporting the gyro wheel, rotate in the left end of carriage through the pivot, it corresponds the setting with the slicing knife left and right sides, can cooperate the height-adjusting flat board through supporting the gyro wheel and clip the button rod, avoids the button rod to remove when the cutting, improves sliced quality.

Compared with the prior art, the invention has the beneficial effects that: this mould stick section structure is pour in button production has following benefit:

1. the motor drives the cutter-carrying rotary disc to rotate, the cutter-carrying rotary disc drives the slicing cutter to rotate, the slicing cutter slices the button bar, the second abutting screw can be rotated out to conveniently take down the slicing cutter, the rotating speed transmitted from the cutter-carrying rotary disc can be reduced through the harmonic reducer, the through threaded rod is driven to rotate, the through threaded rod drives the threaded ring to move left and right, the pipe clamping ring and the threaded top cover are driven to move left and right, the pipe clamping ring and the threaded top cover drive the button bar to move left, namely, slicing and conveying of the button bar can be realized by using the motor, energy consumption is reduced, operation cost is saved, the height of a height-adjustable flat plate can be adjusted by rotating the first abutting screw, and the height-adjustable flat plate is matched with the pipe clamping ring to support the button bar.

2. Reduce the friction of increaseing flat board and button rod through reducing the friction pulley, avoid wearing and tearing the button rod, avoid the work of button piece interference motor that falls out from the discharge opening of top through the bearer bar, accept the cut button piece that falls down through connecing the material frame, and make the button piece concentrate from pouring the hole and fall out, make things convenient for the forward of button piece to fall out, avoid the button piece to persist in connecing the material frame, avoid the button piece to fall out to the front and back of the upper end of connecing the material frame through the flank arc board, accept the button rod and make things convenient for the button rod to insert the feed port through taking over half-arc platform, conveniently rotate and pull out the screw thread top cap through twisting the pull-out handle, can cooperate through the counterbalance gyro wheel and increase the flat board and clip the button rod, avoid the button rod to remove when the cutting, improve sliced quality.

3. This mould stick section structure is pour in button production, at first can only can realize the rotation of slicing knife and two functions of transporting of button rod through a motor work, the energy has been practiced thrift, reduce the operation cost of mill, and slice a plurality of button rods simultaneously, slicing efficiency has been improved, and can concentrate the collection to the button after the section, prevent that the button from falling out outside this device at will, and can restrict the motion of rod, guarantee the stability of rod when the section, improve the section quality of button.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line A-A of the present invention;

FIG. 4 is a schematic view of a partially enlarged structure of the part B of the present invention.

In the figure: the device comprises a material receiving frame 1, a material discharging hole 2, an outer shell 3, a friction reducing wheel 4, a first abutting-pressing screw rod 5, a height-adjusting flat plate 6, a single chip microcomputer 7, a half arc platform 8 of a connecting pipe 8, a pull handle 9, a transmission unit 10, a thread top cover 101, a pipe clamping ring 102, a thread ring 103, a connecting frame 104, a connecting plate 105, a threaded through rod 106, a harmonic speed reducer 107, a supporting frame 108, an abutting-pressing roller 11, a knife-carrying rotary table 12, a flank arc plate 13, a protective frame 14, a motor 15, a pouring hole 16, a slicing knife 17 and a second abutting-pressing screw rod 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution:

the first embodiment is as follows: the button production pouring mold rod slicing structure comprises an outer shell 3, a height adjusting flat plate 6 and a transmission unit 10;

an outer shell 3: the left end of the outer shell body 3 is internally provided with discharge holes 2 in a circular array, the center of the left side of the outer shell body is fixedly provided with a motor 15, the output end of the motor 15 penetrates through the left end of the outer shell body 3 to be fixedly provided with a knife carrying turntable 12, the side surface of the knife carrying turntable 12 is provided with knife inserting grooves in a circular array, a slicing knife 17 is movably inserted in the knife inserting groove, the slicing knife 17 is arranged corresponding to the left and right of the discharge holes 2, the right side of the knife inserting groove and one end of the slicing knife 17 positioned in the knife inserting groove are both provided with threaded holes in a linear array, a second compression screw 18 is inserted in the threaded holes in a penetrating manner, the left end of the second compression screw 18 is abutted against the left side of the knife inserting groove, the right end of the, the motor 15 drives the cutter-carrying rotary table 12 to rotate, the cutter-carrying rotary table 12 drives the slicing cutter 17 to rotate, so that the slicing cutter 17 slices the button bar, and the second abutting screw 18 can be rotated out to conveniently take down the slicing cutter 17;

the transmission unit 10: the device comprises a threaded top cover 101, a pipe clamping ring 102, a threaded ring 103, a connecting frame 104, a connecting plate 105, a through threaded rod 106, a harmonic speed reducer 107 and a supporting frame 108, wherein the lower end of the supporting frame 108 is fixed on the left side inside an outer shell 3, the harmonic speed reducer 107 is installed in the upper end of the supporting frame 108, the input end of the harmonic speed reducer 107 is fixed at the right center of a cutter-carrying turntable 12, the output end of the harmonic speed reducer 107 is fixed with the through threaded rod 106, the right end of the through threaded rod 106 rotates on the right side inside the outer shell 3, the right end of the through threaded rod 106 is in threaded sleeve connection with the threaded ring 103, the connecting plate 105 is arranged in a circular array on the side face of the threaded ring 103, the other end of the connecting plate 105 is fixed with the pipe clamping ring 102, the threaded top cover 101 is inserted in the right end of, the connecting frame 104 is positioned between the feeding hole and the discharging hole 2, a through hole is formed in one side of the connecting frame 104, the connecting plate 105 movably penetrates through the through hole, the pipe clamping ring 102 is positioned in the connecting frame 104, the rotating speed transmitted from the cutter carrying rotating disc 12 can be reduced through the harmonic speed reducer 107, the through threaded rod 106 is driven to rotate, the through threaded rod 106 drives the threaded ring 103 to move left and right, the pipe clamping ring 102 and the threaded top cover 101 are further driven to move left and right, the pipe clamping ring 102 and the threaded top cover 101 drive a button bar to move left, namely, the button bar can be sliced and conveyed by using the motor 15, energy consumption is reduced, and operation cost is saved;

height-adjusting plate 6: the button rod adjusting mechanism comprises a connecting frame 104, a first abutting screw 5, a friction reducing wheel 4, a heightening plate 6 and a slicing knife 17, wherein the lower end of the first abutting screw 5 is movably inserted into the lower end of the connecting frame 104 up and down, the lower side of the first abutting screw 5 is rotatably connected with the first abutting screw 5, the lower end of the first abutting screw 5 penetrates through the lower side of the connecting frame 104, the left end of the heightening plate 6 is arranged corresponding to the left and right of the slicing knife 17, the height of the heightening plate 6 can be adjusted by rotating the first abutting screw 5, the heightening plate 6 is matched with a pipe clamping ring 102 to support a button rod, the button rod adjusting mechanism further comprises the friction reducing wheel 4, the heightening plate 6 is rotated in the heightening plate 6 through a;

wherein: the device also comprises a singlechip 7 which is fixed on the right side of the outer shell 3, the input end of the singlechip is electrically connected with the output end of an external power supply, and the output end of the singlechip is electrically connected with the input end of a motor 15.

Example two:

the difference between this embodiment and the first embodiment is:

in this embodiment, a protection frame 14 is further included, which is fixed at the left center of the outer housing 3, the motor 15 is located in the protection frame 14, the button sheet falling from the uppermost discharge hole 2 is prevented from interfering the work of a motor 15 through a protective frame 14, the button sheet feeder also comprises a receiving frame 1 and a pouring hole 16, the receiving frame 1 is fixed at the left side of the outer shell 3, the lower end of the front side of the receiving frame 1 is provided with the pouring hole 16, the protective frame 14 is positioned in the receiving frame 1, accept the button piece that cuts that falls through connecing material frame 1 to make the button piece concentrate from pouring out hole 16 and fall out, connect the rear end height of the inside downside of material frame 1 to be higher than the front end height, make things convenient for falling forward of button piece, avoid the button piece to persist in connecing material frame 1, still including flank arc board 13, have two and symmetry to set up, two flank arc boards 13 are fixed respectively and are being connect the upside front and back end of material frame 1, avoid the button piece to fall out to the front and back of connecing the upper end of material frame 1 through flank arc board 13.

Example three:

the difference between this embodiment and the second embodiment is:

in this embodiment, still including taking over half arc platform 8, circular array arranges the right side at shell 3, it corresponds the setting with the feed port left and right sides, accept the button rod and make things convenient for the button rod to insert the feed port through taking over half arc platform 8, still including turning round pull handle 9, fix on the right side of screw thread top cap 101, conveniently rotate and pull out screw thread top cap 101 through turning round pull handle 9, still including pressing gyro wheel 11, rotate in the left end of splice frame 104 through the pivot, it corresponds the setting with slicing knife 17 about, can cooperate through pressing gyro wheel 11 and heighten dull and stereotyped 6 and clip the button rod, avoid the button rod to remove when the cutting, improve sliced quality.

When in use: the button bar is placed on the adapter half-arc table 8, the button bar is pushed leftwards, the button bar penetrates through the feed hole and the pipe clamping ring 102, the button bar is placed on the height-adjusting flat plate 6, the button bar is rotated back to the thread top cover 101, the right end of the button bar is wrapped by the thread top cover 101 and the pipe clamping ring 102, the single chip microcomputer 7 is turned on, the motor 15 drives the knife-carrying turntable 12 to rotate, the knife-carrying turntable 12 drives the slicing knife 17 to rotate through the second abutting-pressing screw rod 18, the slicing knife 17 cuts the button bar, meanwhile, the knife-carrying turntable 12 drives the input end of the harmonic speed reducer 107 to rotate, the output end of the harmonic speed reducer 107 drives the through threaded rod 106 to rotate, the rotating speed of the through threaded rod 106 is smaller than that of the knife-carrying turntable 12, the through threaded rod 106 drives the threaded ring 103 to move leftwards, and the threaded ring 103 drives the connecting plate 105 to move, the connecting plate 105 drives the pipe clamping ring 102 to move leftwards, at the moment, the pipe clamping ring 102 is matched with the threaded top cover 101 to push a button bar leftwards, the friction-reducing wheel 4 rotates, namely, the button bar moves leftwards while being sliced, so that slicing is performed, the cut button falls into the material receiving frame 1, the protective frame 14 prevents a button piece falling out of the uppermost discharge hole 2 from interfering with the work of the motor 15, the cut button piece is received by the material receiving frame 1 and falls out of the material receiving frame 1 in a centralized manner from the pouring hole 16, the button piece is convenient to fall forwards, the button piece is prevented from remaining in the material receiving frame, the side wing arc plate 13 prevents the button piece from falling out of the front and back part of the upper end of the material receiving frame 1 and then slides forwards through the pouring hole 16; the single chip microcomputer 7 controls the motor 15 to drive the cutter-carrying turntable 12 to rotate reversely, then the slicing cutter 17 also rotates reversely, at the moment, the penetrating threaded rod 106 rotates reversely, the threaded ring 103 moves rightwards to return to the original position, the threaded ring 103 drives the connecting plate 105 to move rightwards, the connecting plate 105 drives the pipe clamping ring 102 to move rightwards, then the pipe clamping ring 102 and the threaded top cover 101 return rightwards to the original position, and the next slicing process of the button bar is started; the first abutting screw 5 can be rotated, the first abutting screw 5 drives the heightening plate 6 to move up and down, the height of the heightening plate 6 is adjusted, the heightening plate 6 is matched with the abutting roller 11 to clamp the left end of the button bar, the button bar is prevented from moving during cutting, when the slicing knife 17 needs to be replaced, the second abutting screw 18 is rotated out, the slicing knife 17 is outwards taken out, a new slicing knife 17 is inserted, and then the second abutting screw 18 is rotated back.

It is to be noted that the motor 15 disclosed in the present embodiment may be a 60-series servomotor manufactured by Ningbo digital control technologies, Inc. The singlechip 7 controls the motor 15 to work by adopting a method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Mould stick section structure is pour in button production, its characterized in that: comprises an outer shell (3), a height-adjusting flat plate (6) and a transmission unit (10);

outer shell (3): the automatic cutting machine is characterized in that discharge holes (2) are arranged in a circular array in the left end, a motor (15) is fixed in the center of the left side of the automatic cutting machine, the output end of the motor (15) penetrates through the left end of the outer shell (3) to be fixed with a knife carrying turntable (12), knife inserting grooves are arranged in a circular array in the side face of the knife carrying turntable (12), slicing knives (17) are movably inserted in the knife inserting grooves, the slicing knives (17) are arranged corresponding to the left and right of the discharge holes (2), threaded holes are linearly arranged in an array in the right side of the knife inserting grooves and in one ends of the knife inserting grooves where the slicing knives (17) are located, second compression screws (18) are inserted in the threaded holes in a penetrating manner, the left ends of the second compression screws (18) abut against the left side of the knife inserting grooves, feed holes are arranged in a circular array in the right end of the outer shell (3), and;

transmission unit (10): the device comprises a threaded top cover (101), a pipe clamping ring (102), a threaded ring (103), a connecting frame (104), a connecting plate (105), a through threaded rod (106), a harmonic speed reducer (107) and a supporting frame (108), wherein the lower end of the supporting frame (108) is fixed on the left side of the inside of a shell body (3), the harmonic speed reducer (107) is installed in the upper end of the supporting frame (108), the input end of the harmonic speed reducer (107) is fixed at the center of the right side of a knife-carrying turntable (12), the output end of the harmonic speed reducer (107) is fixed with the through threaded rod (106), the right end of the through threaded rod (106) rotates on the right side of the inside of the shell body (3), the threaded ring (103) is sleeved with the right end thread of the through threaded rod (106), the connecting plate (105) is arranged in a circular array on the side face of the threaded ring (103), a threaded top cover (101) is inserted into the right end inner thread of the pipe clamping ring (102), the threaded top cover (101) movably penetrates through the feed hole from left to right, the connecting frame (104) is circularly arrayed on the right side in the outer shell (3), the connecting frame (104) is positioned between the feed hole and the discharge hole (2), a through hole is formed in one side of the connecting frame (104), the connecting plate (105) movably penetrates through the through hole, and the pipe clamping ring (102) is positioned in the connecting frame (104);

wherein: the motor is characterized by further comprising a single chip microcomputer (7) which is fixed on the right side of the outer shell (3), the input end of the single chip microcomputer is electrically connected with the output end of an external power supply, and the output end of the single chip microcomputer is electrically connected with the input end of the motor (15).

2. The button production pouring mold rod slicing structure according to claim 1, characterized in that: the anti-friction wheel (4) is arranged in the height-adjusting flat plate (6) through a rotating shaft in a linear array mode.

3. The button production pouring mold rod slicing structure according to claim 1, characterized in that: the motor is characterized by further comprising a protective frame (14) fixed in the center of the left side of the outer shell (3), and the motor (15) is located in the protective frame (14).

4. The button production pouring mold rod slicing structure according to claim 3, characterized in that: still including connecing material frame (1) and pouring hole (16), connect material frame (1) to fix the left side at shell body (3), the front side lower extreme that connects material frame (1) is equipped with pouring hole (16), protection frame (14) are located and connect material frame (1), the rear end height of the inside downside that connects material frame (1) is higher than the front end height.

5. The button production pouring mold rod slicing structure according to claim 4, characterized in that: the heightening flat plate (6) is movably inserted into the lower end of the connecting frame (104) in a vertically penetrating mode, the lower side of the heightening flat plate is rotatably connected with a first abutting screw (5), the lower end thread of the first abutting screw (5) penetrates through the lower side of the connecting frame (104), and the left end of the heightening flat plate (6) and the slicing knife (17) are arranged in a left-right corresponding mode.

6. The button production pouring mold rod slicing structure according to claim 4, characterized in that: the material receiving frame is characterized by further comprising two side wing arc plates (13) which are symmetrically arranged, and the two side wing arc plates (13) are respectively fixed at the front end and the rear end of the upper side of the material receiving frame (1).

7. The button production pouring mold rod slicing structure according to claim 1, characterized in that: the device is characterized by further comprising a connecting pipe semi-arc table (8), wherein the circular array is arranged on the right side of the outer shell (3) and corresponds to the left and right of the feeding hole.

8. The button production pouring mold rod slicing structure according to claim 1, characterized in that: also comprises a twist-pull handle (9) which is fixed on the right side of the threaded top cover (101).

9. The button production pouring mold rod slicing structure according to claim 1, characterized in that: the slicing machine also comprises a pressing roller (11) which rotates in the left end of the connecting frame (104) through a rotating shaft and is arranged corresponding to the slicing knife (17) left and right.