CN214134307U - Chamfering machine - Google Patents

Abstract

The utility model provides a chamfering machine, it includes the fixed plate, be located the fixed plate top and be used for placing the fixing base of product, relative rotation sets up last glassware and lower glassware in the fixing base both sides, be located the first chamfer mechanism that the fixing base top is used for the chamfer, be located the fixed plate below and with first chamfer mechanism relative second chamfer mechanism, it includes first revolving stage to go up the glassware, first horizontal pole, first motor and first subassembly of breathing in, lower glassware includes the second revolving stage, the second horizontal pole, second motor and second subassembly of breathing in. The utility model discloses a chamfering machine, it absorbs the product through first subassembly of breathing in, and the first horizontal pole of first motor drive places the product on the fixing base, and first chamfering mechanism and second chamfering mechanism carry out the chamfer to the product, and second motor drive second horizontal pole is rotatory and absorb the product, and second motor drive second horizontal pole is rotatory, keeps away from the fixing base with the product, and the chamfer can carry out the chamfer on the two sides of product, saves the time of chamfer for work efficiency.

Description

Chamfering machine

Technical Field

The utility model relates to a processing equipment field, in particular to beveler.

Background

The beveler is that a specialty is made with term mould, hardware machinery, the machine tool is made, hydraulic parts, valve class is made, prevent the chamfer of mechanism and go to mill, the small-size precision machine tool of the burr of processing mode products such as plane, it is the trend of mechanical industry development to adopt quick machine chamfer, the processing shortcoming of current machinery and electric tool has been overcome, and is convenient, swift, accurate advantage, beveler among the prior art, the beveler can only chamfer to one side of product, need artifical upset again to carry out the chamfer during another side chamfer, not only time-consuming, still increase artificial operating time, machining efficiency is low.

Therefore, it is desirable to provide a chamfering machine to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a chamfering machine to solve the chamfering machine among the prior art, chamfering machine can only be to the one side chamfer of product, needs the manual work to overturn again during another side chamfer and carries out the chamfer, not only takes time, still increases artificial operating time, problem that machining efficiency is low.

In order to solve the technical problem, the utility model adopts the technical scheme that: a chamfering machine comprises a fixed plate, a fixed seat positioned above the fixed plate and used for placing a product, a material loading device and a material unloading device which are arranged on two sides of the fixed seat in a relatively rotating mode, a first chamfering mechanism positioned above the fixed seat and used for chamfering, and a second chamfering mechanism positioned below the fixed plate and opposite to the first chamfering mechanism;

the feeding device comprises a first rotating platform, a first cross rod connected to the first rotating platform, a first motor positioned at one end of the first cross rod and used for driving the first cross rod to rotate, and a first air suction assembly positioned at the other end of the first cross rod and used for sucking a product;

the feeder comprises a second rotating platform, a second cross rod connected to the second rotating platform, a second motor positioned at one end of the second cross rod and used for driving the second cross rod to rotate, and a second air suction assembly positioned at the other end of the second cross rod and used for sucking products;

the first air suction assembly sucks a product, the first motor drives the first cross rod to place the product on the fixing seat, the first chamfering mechanism and the second chamfering mechanism chamfer the product, the second motor drives the second cross rod to rotate and suck the product, and after the product is sucked, the second motor drives the second cross rod to rotate so as to keep the product away from the fixing seat.

The utility model discloses in, still be provided with on the fixed plate and press the subassembly, press the subassembly including pressing the platform, pressing board and first cylinder, press the board to be located press the upper portion of platform, first cylinder is located press the lower part of platform, first cylinder is used for the drive to press the board to press and loosen the product.

The utility model discloses in, first chamfer mechanism includes first connecting plate, first chamfer subassembly and first cylinder assembly, first connecting plate is located the fixing base is kept away from press one side of platform, first cylinder assembly connects on the first connecting plate, first chamfer subassembly is connected on the first cylinder assembly, first cylinder assembly is used for the drive remove about the first chamfer subassembly.

The utility model discloses in, first chamfer mechanism still includes the second cylinder subassembly, the second cylinder subassembly is located first cylinder subassembly with between the first connecting plate, first cylinder subassembly is connected on the second cylinder subassembly, the second cylinder subassembly drives first cylinder subassembly back-and-forth movement, first cylinder subassembly drives first chamfer subassembly back-and-forth movement.

The utility model discloses in, second chamfer mechanism includes second connecting plate, second chamfer subassembly and third cylinder assembly, the second connecting plate is located the below of fixed plate, third cylinder assembly connects on the second connecting plate, the second chamfer subassembly is connected on the third cylinder assembly, the third cylinder assembly is used for driving the second chamfer subassembly is removed and is removed.

The utility model discloses in, second chamfer mechanism still includes fourth cylinder subassembly, fourth cylinder subassembly is located the third cylinder subassembly with between the second connecting plate, the third cylinder subassembly is connected on the fourth cylinder subassembly, the fourth cylinder subassembly drives the third cylinder subassembly back-and-forth movement, the third cylinder subassembly drives the second chamfer subassembly back-and-forth movement.

The utility model discloses in, the below of fixed plate is provided with the relative blowing subassembly that sets up, the blowing subassembly is located respectively go up the glassware with the below of glassware down, the blowing subassembly is used for placing the product.

The utility model discloses in, the blowing subassembly includes blowing groove, threaded rod, ejector piece, third motor, the blowing groove is fixed on the fixed plate, the threaded rod is located in the blowing groove, the ejector piece is connected on the threaded rod, the third motor is connected the bottom of blowing groove, the third motor is used for the drive the threaded rod is rotatory, the threaded rod passes through the screw thread and drives the ejector piece rises and descends.

The utility model discloses in, the blowing subassembly still includes first gear and second gear, first gear fixed connection be in the bottom of threaded rod, the second gear is located the third motor with between the first gear, third motor drive the second gear drives the threaded rod rotates.

The utility model discloses in, beveler still includes board and protection casing, the fixed plate is connected on the board, the protection casing is connected the board top.

The utility model discloses compare in prior art, its beneficial effect is: the utility model discloses a chamfering machine, it is rotatory to blowing subassembly top through first motor drive horizontal pole, the product is absorb to first subassembly of breathing in, first motor drive horizontal pole is rotatory to the fixing base top, and place the product on the fixing base, first cylinder drive is according to clamp plate extrusion product, fix the product on the fixing base, first chamfering mechanism and second chamfering mechanism carry out the chamfer to the both sides of product, after the chamfer is accomplished, second motor drive second horizontal pole to the top of fixing base, and absorb the product after the subassembly absorbs the chamfer through the second, second motor drive second horizontal pole to the top of blowing subassembly, and place the product after the chamfer in the blowing subassembly, the chamfering machine can carry out the chamfer to the both sides of product simultaneously, save the time and the manual operation time of chamfer, and the work efficiency is accelerated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding drawings of some embodiments of the present invention.

Fig. 1 is a perspective view of a preferred embodiment of the chamfering machine of the present invention.

Fig. 2 is a plan view of a preferred embodiment of the chamfering machine of the present invention.

Fig. 3 is a perspective view of a preferred embodiment of the chamfering machine of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a partially enlarged view of a portion B in fig. 3.

Fig. 6 is a perspective view of the discharging component of the chamfering machine of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the chamfering machine in the prior art, the chamfering machine can only chamfer one side of a product, and the chamfering machine needs to be manually turned over again during chamfering the other side, so that time is consumed, manual operation time is prolonged, and the processing efficiency is low.

The present invention provides a preferable embodiment of a chamfering machine capable of solving the above technical problems.

Referring to fig. 1, 2 and 3, fig. 1 is a perspective view of a preferred embodiment of the chamfering machine of the present invention, fig. 2 is a top view of the preferred embodiment of the chamfering machine of the present invention, and fig. 3 is a perspective view of the preferred embodiment of the chamfering machine of the present invention.

In the drawings, elements having similar structures are denoted by the same reference numerals.

The terms "first," "second," and the like in the terms of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, nor should they be construed as limiting in any way.

The utility model provides a chamfering machine, including fixed plate 2111, the fixing base 24 for placing the product above fixed plate 2111, the loader 25 and the unloader 26 which are relatively rotatably arranged at both sides of the fixing base 24, the first chamfering mechanism 22 which is positioned above the fixing base 24 and is used for chamfering, and the second chamfering mechanism which is positioned below the fixed plate 2111 and is opposite to the first chamfering mechanism 22, the loader 25 includes a first rotating platform, a first cross bar which is connected on the first rotating platform, a first motor which is positioned at one end of the first cross bar and is used for driving the first cross bar to rotate, and a first air suction component which is positioned at the other end of the first cross bar and is used for sucking the product, the unloader 26 includes a second rotating platform 263, a second cross bar 262 which is connected on the second rotating platform 263, a second motor 261 which is positioned at one end of the second cross bar 262 and is used for driving the second cross bar 262 to rotate, and a second air suction component 264 which is positioned at the other end of the second cross bar 262 and is used for sucking the product, wherein, the product is inhaled to the first subassembly of inhaling, and first motor drive first horizontal pole is placed the product on fixing base 24, and first chamfer mechanism 22 and second chamfer mechanism carry out the chamfer to the product, and second motor 261 drive second horizontal pole 262 is rotatory to be inhaled the product, and after absorbing the product, second motor 261 drive second horizontal pole 262 to keep away from fixing base 24 with the product.

Wherein, the product is inhaled to first subassembly of breathing in, first motor drives the top of product to fixing base 24 through first horizontal pole, and place the product on fixing base 24, first chamfer subassembly 222 and second chamfer subassembly chamfer to the two sides of product, after the product chamfer is accomplished, second motor 261 drive second horizontal pole 262 drives the second subassembly 264 of breathing in and drives the top to fixing base 24, the second subassembly 264 of breathing in absorbs the product behind the chamfer, second motor 261 drive second horizontal pole 262 drives the second subassembly 264 of breathing in and keeps away from fixing base 24, thereby save the time of artifical turn-over, save the time of chamfering again behind the turn-over, accelerate work efficiency.

In this embodiment, please refer to fig. 4, fig. 4 is a partial enlarged view of a portion a in fig. 3, a fixing ring 265 is respectively disposed at one end of the first cross bar close to the first air suction assembly and one end of the second cross bar 262 close to the second air suction assembly 264, the first air suction assembly and the second air suction assembly 264 respectively include a connecting rod and a suction nozzle, the suction nozzle is located at a lower portion of the connecting rod, the suction nozzle is convenient for the suction nozzle to suck a product, the connecting rod is fixed in the fixing ring 265, the fixing ring 265 is used for fixing the connecting rod, the suction nozzle is the same as the connecting rod, and an external air suction device is connected to an upper portion of the connecting rod for the suction nozzle to suck the product.

The fixing plate 2111 is further provided with a pressing assembly 23, the pressing assembly 23 comprises a pressing table 231, a pressing plate 232 and a first air cylinder 233, the pressing plate 232 is located at the upper portion of the pressing table 231, the first air cylinder 233 is located at the lower portion of the pressing table 231, the first air cylinder 233 is used for driving the pressing plate 232 to press and loosen a product, the first air cylinder 233 drives the pressing plate 232 to press the product and is used for fixing the product on the fixing base 24, and the product is prevented from deviating from the position and damaging the product when the product is chamfered by the first chamfering assembly 222 and the second chamfering assembly.

Referring to fig. 5, fig. 5 is a partial enlarged view of a portion B in fig. 3, the first chamfering mechanism 22 includes a first connecting plate, a first chamfering assembly 222 and a first cylinder 233 assembly 223, the first connecting plate is located on a side of the fixing base 24 away from the pressing table 231, the first cylinder 233 assembly 223 is connected to the first connecting plate, the first chamfering assembly 222 is connected to the first cylinder 233 assembly 223, the first cylinder 233 assembly 223 is used for driving the first chamfering assembly 222 to move left and right, the first chamfering mechanism 22 further includes a second cylinder assembly 221, the second cylinder assembly 221 is located between the first cylinder 233 assembly 223 and the first connecting plate, the first cylinder 233 assembly 223 is connected to the second cylinder assembly 221, the second cylinder assembly 221 drives the first cylinder 233 assembly 223 to move back and forth, the first cylinder 233 assembly 223 drives the first chamfering assembly 222 to move back and forth, the first connecting plate is fixedly connected to the fixing plate 2111, the second cylinder assembly 221 is located between the first cylinder assembly 233 and the first connecting plate, the second cylinder assembly 221 is fixedly connected to the first connecting plate, the first cylinder assembly 233 is connected to the second cylinder assembly 221 in a sliding mode and used for driving the second cylinder assembly 221 to move back and forth, the first chamfering assembly 222 is connected to the first cylinder assembly 233 in a sliding mode, the first cylinder assembly 233 is used for driving the first chamfering assembly 222 to move left and right, the first cylinder assembly 233 and the second cylinder assembly 221 are used for driving the first chamfering assembly 222 to move towards different directions, and therefore the first chamfering assembly 222 can chamfer holes in different positions.

In this embodiment, the first chamfering assembly 222 includes a fourth motor 2222, a third connecting plate 2221, a first chamfering rod 2224, a first connecting table 2223 and a first guide rail 2225, the third connecting plate 2221 is connected to the first cylinder 233 assembly 223, the first guide rail 2225 is connected to the third connecting plate 2221, the fourth motor 2222 is fixed above the third connecting plate 2221, the first connecting table 2223 is slidably connected to the first guide rail 2225 and is drivingly connected to the fourth motor 2222, the first chamfering rod 2224 is connected to the first connecting table 2223, the fourth motor 2222 is configured to drive the first connecting table 2223 to slide up and down on the first guide rail 2225, the first connecting table 2223 drives the first chamfering rod 2224 to slide up and down, the upper portion of the first chamfering rod 2224 is connected to an external air pressure device, and the external air pressure drives the first connecting rod to rotate so as to perform chamfering.

The second chamfering mechanism comprises a second connecting plate, a second chamfering component and a third air cylinder, the second connecting plate is positioned below the fixing plate 2111, the third air cylinder component is connected above the second connecting plate, the second chamfering component is connected on the third air cylinder component, the third air cylinder component is used for driving the second chamfering component to move left and right, the second chamfering mechanism also comprises a fourth air cylinder component, the fourth air cylinder component is positioned between the third air cylinder component and the second connecting plate, the third air cylinder component is connected on the fourth air cylinder component, the fourth air cylinder component is used for driving the third air cylinder component to move front and back, the third air cylinder component drives the second chamfering component to move front and back, the second connecting plate is fixedly connected on the fixing plate 2111, the fourth air cylinder component is positioned between the third air cylinder component and the second connecting plate, the fourth air cylinder component is fixedly connected on the second connecting plate, the third air cylinder component is connected on the fourth air cylinder component in a sliding manner, in order to be used for driving third cylinder assembly back-and-forth movement, second chamfer subassembly sliding connection is on third cylinder assembly, and third cylinder assembly is used for driving the second chamfer subassembly and removes, and third cylinder assembly and fourth cylinder assembly are used for driving the second chamfer subassembly and remove to the direction of difference to make the second chamfer subassembly can carry out the chamfer to the hole of different positions.

In this embodiment, the second chamfer subassembly includes the fifth motor, the fourth connecting plate, the second chamfer pole, platform and second guide rail are connected to the second, the fourth connecting plate is connected on third cylinder subassembly, the second guide rail is connected on the fourth connecting plate, the top at the fourth connecting plate is fixed to the fifth motor, second connection platform sliding connection just is connected with fifth motor drive at the second guide rail, the second chamfer pole is connected at the second and is connected the bench, the fifth motor is used for driving the second and connects the platform and slide from top to bottom at the second guide rail, the second is connected the platform and is driven the second chamfer pole and slide from top to bottom, the upper portion and the outside pneumatic means of second chamfer pole are connected, thereby outside pneumatic drive second connecting rod rotates the chamfer.

Referring to fig. 6, fig. 6 is a perspective view of a discharging assembly of the chamfering machine of the present invention, a relative discharging assembly 27 is further disposed below a fixing plate 2111, the discharging assembly 27 is respectively disposed below a loading device 25 and a loading device 26, the discharging assembly 27 is used for preventing products, the discharging assembly 27 includes a discharging slot 271, a threaded rod 274, a material ejecting block 275, and a third motor 272, the discharging slot 271 is fixed on the fixing plate 2111, the threaded rod 274 is disposed in the discharging slot 271, the material ejecting block 275 is connected to the threaded rod 274, the third motor 272 is connected to the bottom of the discharging slot 271, the third motor 272 is used for driving the threaded rod 274 to rotate, the threaded rod 274 drives the material ejecting block 275 to ascend and descend through a thread, the discharging assembly 27 further includes a first gear and a second gear 273, the first gear is fixedly connected to the bottom of the threaded rod 274, the second gear 273 is disposed between the third motor 272 and the first gear, the third motor 272 drives the second gear 273 to drive the threaded rod 274 to rotate, the chamfering machine further comprises a machine table 11 and a protective cover 12, the fixing plate 2111 is connected to the machine table 11, the protective cover 12 is connected to the upper portion of the machine table 11, the threaded rod 274 is located in the discharging groove 271, the ejector block 275 is in threaded connection with the threaded rod 274, the third motor 272 is located at the bottom of the discharging groove 271, the second gear 273 is located between the third motor 272 and the threaded rod 274, the third motor 272 drives the second gear 273 to drive the threaded rod 274 to rotate, the threaded rod 274 drives the ejector block 275 to ascend and descend, and therefore the product is driven to ascend and descend.

The working principle is as follows:

the fixed seat 24 is positioned on the fixed plate 2111, the loading device 25 and the unloading device 26 are positioned at two sides of the fixed seat 24, the first chamfering mechanism 22 is positioned at one side of the fixed seat 24 away from the loading device 25 and the unloading device 26, the pressing component 23 is positioned at one side of the fixed seat 24 opposite to the position of the first chamfering mechanism 22, the second chamfering mechanism is positioned below the fixed plate 2111, the second chamfering mechanism is opposite to the position of the first chamfering mechanism 22, the unloading component 27 is positioned below the loading device 25 and the unloading device 26, with being used for placing the product after not chamfer and chamfer, go up glassware 25 and be used for absorbing the product and place the product on fixing base 24, fixing base 24 is used for placing the product, presses down subassembly 23 and is used for pressing down the product, prevents that the product from separating with fixing base 24, and first chamfer subassembly 222 and second chamfer subassembly are used for chamfering the two sides of product, and lower glassware 26 is used for absorbing the product after the chamfer and keeps away from fixing base 24.

The loading device 25 comprises a first rotating platform, a first cross bar, a first motor and a first air suction assembly, the first cross bar is positioned on the first rotating platform, the first motor and the first air suction assembly are respectively positioned at two ends of the first cross bar, the first motor is used for driving the first cross bar to rotate so as to drive the first air suction assembly to rotate, the unloading device 26 comprises a second rotating platform 263, a second cross bar 262, a second motor 261 and a second air suction assembly 264, the second cross bar 262 is positioned on the second rotating platform 263, the second motor 261 and the second air suction assembly 264 are positioned at two ends of the second cross bar, the second motor 261 is used for driving the second cross bar 262 to rotate so as to drive the second air suction assembly 264 to rotate, the pressing assembly 23 comprises a pressing platform 231, a pressing plate 232 and a first air cylinder 233, the pressing platform 231 is fixed on the fixing plate 2111, the pressing plate 232 is fixed on the pressing platform 231, the first air cylinder 233 is positioned below the pressing platform 231 and connected with the pressing plate 232, the first cylinder 233 is used to press and release the product.

When the product is to be chamfered, firstly, the product which is not chamfered is placed in the discharging groove 271 below the feeder 25, the first motor drives the first cross rod to rotate on the first rotating platform to the discharging assembly 27, the first air suction assembly sucks air from the suction nozzle through the external air suction device, the first motor drives the first cross rod to drive the product to move to the fixed seat 24 and place the product on the fixed seat 24, the third motor 272 drives the second gear 273 to rotate, the second gear 273 drives the threaded rod 274 to rotate, the threaded rod 274 drives the ejector block 275 to rotate, and the product is moved to a set position.

After the product is located fixing base 24, first cylinder 233 drives and presses down the product according to clamp plate 232, prevent that the product from separating with fixing base 24 or rocking in fixing base 24, with the fixed back of product, first cylinder 233 subassembly 223 and second cylinder subassembly 221 drive first chamfer subassembly 222 and remove, third cylinder subassembly and fourth cylinder subassembly drive second chamfer subassembly and remove, thereby carry out the chamfer simultaneously to the two sides of product, after the chamfer is accomplished, first cylinder 233 subassembly 223 and second cylinder subassembly 221 drive the one side that first chamfer subassembly 222 kept away from the product, third cylinder subassembly and fourth cylinder subassembly drive the another side that the product was kept away from to the second chamfer subassembly, first cylinder 233 drives and presses clamp plate 232 to loosen the product.

After the product is loosened by the pressing component 23, the second motor 261 drives the second cross rod 262 to move to the upper side of the product after chamfering, the second air suction component 264 sucks the product from the suction nozzle through an external suction device, the second motor 261 drives the second cross rod 262 to rotate, the product after chamfering is far away from the fixing seat 24, after the second air suction component 264 rotates to the discharging component 27, the second air suction component 264 stops sucking air, the product after chamfering is placed on the discharging component 27, the third motor 272 drives the threaded rod 274 to drive the ordering block to descend, a placing space is vacated for the product after next chamfering, the first motor and the first air suction component are driven again to suck the product, the steps are circulated, automatic chamfering can be automatically performed on two sides of the product, time and labor are saved, manual operation time is saved, and meanwhile chamfering efficiency of the product can be accelerated.

The beveler of this preferred embodiment is rotatory to blowing subassembly top through first motor drive horizontal pole, the product is absorb to first subassembly of breathing in, first motor drive horizontal pole is rotatory to the fixing base top, and place the product on the fixing base, first cylinder drive is pressed the pressing plate extrusion product, fix the product on the fixing base, first chamfering mechanism and second chamfering mechanism carry out the chamfer to the both sides of product, after the chamfer is accomplished, second motor drive second horizontal pole to the top of fixing base, and absorb the product after the chamfer through the second, second motor drive second horizontal pole to the top of blowing subassembly, and place the product after the chamfer in the blowing subassembly, the beveler can carry out the chamfer to the both sides of product simultaneously, save the time and the manual operation time of chamfer, and work efficiency is accelerated.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be determined by the scope of the appended claims.

Claims (10)

1. A chamfering machine is characterized by comprising a fixed plate, a fixed seat positioned above the fixed plate and used for placing a product, a material loading device and a material unloading device which are arranged on two sides of the fixed seat in a relatively rotating mode, a first chamfering mechanism positioned above the fixed seat and used for chamfering, and a second chamfering mechanism positioned below the fixed plate and opposite to the first chamfering mechanism;

the feeding device comprises a first rotating platform, a first cross rod connected to the first rotating platform, a first motor positioned at one end of the first cross rod and used for driving the first cross rod to rotate, and a first air suction assembly positioned at the other end of the first cross rod and used for sucking a product;

the feeder comprises a second rotating platform, a second cross rod connected to the second rotating platform, a second motor positioned at one end of the second cross rod and used for driving the second cross rod to rotate, and a second air suction assembly positioned at the other end of the second cross rod and used for sucking products;

the first air suction assembly sucks a product, the first motor drives the first cross rod to place the product on the fixed seat, the first chamfering mechanism and the second chamfering mechanism chamfer the product, the second motor drives the second cross rod to rotate and suck the product, and after the product is sucked, the second motor drives the second cross rod to rotate so as to keep the product away from the fixed seat.

2. The chamfering machine according to claim 1, wherein a pressing assembly is further disposed on the fixing plate, the pressing assembly includes a pressing table, a pressing plate and a first air cylinder, the pressing plate is located at an upper portion of the pressing table, the first air cylinder is located at a lower portion of the pressing table, and the first air cylinder is used for driving the pressing plate to press and release the product.

3. The chamfering machine according to claim 2, wherein the first chamfering mechanism comprises a first connecting plate, a first chamfering assembly and a first cylinder assembly, the first connecting plate is located on one side of the fixed seat away from the pressing table, the first cylinder assembly is connected to the first connecting plate, the first chamfering assembly is connected to the first cylinder assembly, and the first cylinder assembly is used for driving the first chamfering assembly to move left and right.

4. The chamfering machine according to claim 3, wherein the first chamfering mechanism further comprises a second cylinder assembly, the second cylinder assembly is located between the first cylinder assembly and the first connecting plate, the first cylinder assembly is connected to the second cylinder assembly, the second cylinder assembly drives the first cylinder assembly to move back and forth, and the first cylinder assembly drives the first chamfering assembly to move back and forth.

5. The chamfering machine according to claim 1, wherein the second chamfering mechanism includes a second connecting plate, a second chamfering unit, and a third cylinder unit, the second connecting plate is located below the fixing plate, the third cylinder unit is connected to the second connecting plate, the second chamfering unit is connected to the third cylinder unit, and the third cylinder unit is configured to move the second chamfering unit to the left and right.

6. The chamfering machine according to claim 5, wherein the second chamfering mechanism further comprises a fourth cylinder assembly, the fourth cylinder assembly is located between the third cylinder assembly and the second connecting plate, the third cylinder assembly is connected to the fourth cylinder assembly, the fourth cylinder assembly drives the third cylinder assembly to move back and forth, and the third cylinder assembly drives the second chamfering assembly to move back and forth.

7. The chamfering machine according to claim 1, wherein opposite discharging assemblies are arranged below the fixing plate, the discharging assemblies are respectively positioned below the loading device and the unloading device, and the discharging assemblies are used for placing products.

8. The chamfering machine according to claim 7, wherein the discharging assembly comprises a discharging groove, a threaded rod, a material ejecting block and a third motor, the discharging groove is fixed on the fixing plate, the threaded rod is located in the discharging groove, the material ejecting block is connected to the threaded rod, the third motor is connected to the bottom of the discharging groove, the third motor is used for driving the threaded rod to rotate, and the threaded rod drives the material ejecting block to ascend and descend through threads.

9. The chamfering machine according to claim 8, wherein the emptying assembly further comprises a first gear and a second gear, the first gear is fixedly connected to the bottom of the threaded rod, the second gear is located between the third motor and the first gear, and the third motor drives the second gear to drive the threaded rod to rotate.

10. The chamfering machine according to claim 1, further comprising a table on which the fixing plate is attached and a protection cover attached above the table.

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