CN209868840U - A equipment for chopping block four corners chamfer - Google Patents

Abstract

The utility model belongs to the technical field of chopping board processing, and discloses equipment for chamfering four corners of a chopping board, which comprises a conveying mechanism, a chopping board lifting mechanism and a cutting assembly; the chopping board lifting mechanism comprises a lifting component and a pressing component; the lifting assembly comprises a lifting cylinder and a lifting plate; the lower end of the lifting plate is fixedly connected with a piston rod of a lifting cylinder; the material pressing component comprises a material pressing cylinder and a material pressing plate; the upper end of the material pressing plate is fixedly connected with a piston rod of the material pressing cylinder; the piston rod of the material pressing cylinder keeps in an extending state all the time, the chopping board is supported by the supporting mechanism to be lifted up to contact the material pressing board and then can be subjected to downward pressure all the time, and the driving force of the material pressing cylinder is smaller than that of the supporting cylinder. The utility model discloses a cylinder goes up and down, and the cylinder of top assists compressing tightly when the below cylinder holds in the palm the lift, and the chopping block is difficult for sliding, and machining precision and machining efficiency are high.

Description

A equipment for chopping block four corners chamfer

Technical Field

The utility model belongs to the technical field of the chopping block processing, especially, relate to a mechanical equipment for processing the chopping block, specifically speaking indicates the improvement to the four corners chamfer device of chopping block.

Background

The chopping board is one of kitchen utensils with very high use frequency in life, and the chopping board is divided into two types of common wood chopping board and bamboo chopping board from the material, and the plastic chopping board is used less. The shape of the chopping board is mainly square and round, wherein the waste materials are the least when the square chopping board is processed, and the processing process is simpler and relatively the most common.

In the processing process of the square chopping block, in order to ensure that the corners of the chopping block are not sharp, chamfering treatment needs to be carried out on edges and four corners. The chamfering treatment of the chopping block is realized by special equipment at present, and automatic flow operation can be realized. Chamfering treatment of four corners of the chopping board also has a scheme for realizing automatic chamfering of the chopping board, and the flowing automation of the whole process of subsequent treatment (chamfering, chamfering and edging) of the chopping board is preliminarily realized. For example, the cutting board four-corner synchronous chamfering device disclosed in the chinese patent publication No. CN106217502A is composed of a cutting board lifting mechanism for horizontally lifting the cutting board and four sets of cutting assemblies for chamfering the cutting board corners; the four sets of cutting components are respectively arranged corresponding to four corners of the lifted cutting board; when the chopping board is horizontally lifted by the chopping board lifting mechanism, the chopping board is cut at four corners of the cutter head of the four sets of cutting components.

According to the invention, the four corners of the chopping board are simultaneously treated in a mode of horizontally supporting and lifting the chopping board through the chain transmission mechanism, and meanwhile, conditions are provided for horizontal conveying of the chopping board.

However, in the application of the equipment, the chopping board is not pressed in an auxiliary way during chamfering, so that the chopping board is easy to slide, the size precision of the machined chopping board is low, and the size difference of different chopping boards is large. Moreover, the chain transmission mechanism for supporting and lifting the chopping board is complex in structure and has too many parts. To smoothly complete the automatic processing of the chopping block through mechanical equipment, the chamfering equipment of the chopping block needs to be improved, the processing efficiency is improved, and the processing precision is improved.

Disclosure of Invention

The utility model aims at improving chopping block four corners chamfering equipment, providing a new structural scheme who realizes the automatic chamfer of chopping block. The scheme is helpful for realizing the flowing automation of the whole process of the chopping board subsequent treatment.

To the above purpose, the utility model provides an equipment of chopping block four corners chamfer has improved the lift part of original chopping block four corners chamfer equipment, utilizes the cylinder to go up and down and the cylinder assists compressing tightly.

A device for chamfering the four corners of a cutting board comprises a conveying mechanism for conveying the cutting board, a cutting board supporting and lifting mechanism for horizontally supporting and lifting the cutting board, and four sets of cutting assemblies for chamfering the corners of the cutting board; four sets of cutting assemblies are respectively arranged corresponding to four corners of the supported cutting board. When the chopping board is horizontally lifted by the chopping board lifting mechanism, the chopping board is cut at four corners of the cutter head of the four sets of cutting components.

The lifting mechanism is characterized in that the lifting mechanism is arranged on the rack; the chopping block supporting and lifting mechanism comprises a supporting and lifting component, a material pressing component, a sensor and a controller.

The chopping block supporting and lifting mechanism comprises a supporting and lifting component, a material pressing component, a sensor and a controller.

The lifting assembly comprises a lifting cylinder, a lifting plate and a lifting cylinder electromagnetic valve; the lifting cylinder and the lifting cylinder electromagnetic valve are arranged on the frame; the air inlet and outlet pipe port of the lifting cylinder is connected with a lifting cylinder electromagnetic valve; the lower end of the lifting plate is fixedly connected with a piston rod of a lifting cylinder; and the signal input end of the lifting air cylinder electromagnetic valve is connected with one signal output end of the controller.

The sensor and the controller are arranged on the frame, and the signal output end of the sensor is connected with one signal input end of the controller; when the controller receives a signal sent by the sensor, the controller outputs a signal for controlling the rising of the movable cold rod of the lifting cylinder to the electromagnetic valve of the lifting cylinder;

the material pressing assembly comprises a material pressing cylinder, a material pressing plate and a material pressing cylinder electromagnetic valve; the material pressing cylinder and the material pressing cylinder electromagnetic valve are arranged on the rack; the upper end of the material pressing plate is fixedly connected with a piston rod of the material pressing cylinder; the inlet and outlet pipe orifices of the material pressing cylinder are connected with a material pressing cylinder electromagnetic valve; and the signal input end of the material pressing cylinder electromagnetic valve is connected with one signal output end of the controller.

The conveying mechanism is arranged on the rack and comprises two sets of chain mechanisms which are transversely arranged and are parallel to each other.

Each set of chain mechanism comprises a driving chain wheel, a driven chain wheel and a closed feeding chain, the driving chain wheels of the two chain mechanisms are coaxially arranged, and the driven chain wheels of the two chain mechanisms are coaxially arranged; a plurality of small block stoppers are arranged on the feeding chains, and the stoppers on the two feeding chains are correspondingly arranged at the same position.

Further, the chain mechanism is driven by a motor which first drives a shaft mounting two drive sprockets, thereby enabling the entire transport mechanism to function.

Furthermore, the rack also comprises a lifting air cylinder mounting seat and a material pressing air cylinder bracket; the lifting cylinder mounting base comprises a lifting cylinder support; the lifting cylinder electromagnetic valve is arranged on the lifting cylinder mounting seat; the lifting cylinder is arranged on the lifting cylinder mounting seat and the lifting cylinder support; the material pressing cylinder and the material pressing cylinder electromagnetic valve are arranged on the material pressing cylinder support.

Furthermore, an auxiliary material pressing sheet is arranged on the material pressing plate; the auxiliary pressing piece is a bent iron piece with a certain thickness and is used for auxiliary pressing of the chopping board.

Furthermore, the number of the sensors is two, the sensors are arranged on the rack, and the positions of the sensors and the conveying chopping board are on the same horizontal line and close to the lifting cylinder. When the controller receives the signal of the front sensor, the controller sends a signal of deceleration to the conveying system. When the controller receives the signal of the rear sensor, the controller sends a stop signal to the transmission system and outputs a signal for controlling the lifting of the piston rod of the lifting cylinder to the electromagnetic valve of the lifting cylinder.

The piston rod of the material pressing cylinder keeps in an extending state all the time, and the chopping block is supported by the supporting mechanism to be lifted up so as to be contacted with the material pressing plate and then be subjected to downward pressure all the time. The driving force of the material pressing cylinder is smaller than that of the lifting cylinder, so that after the chopping block contacts the material pressing plate, the lower lifting cylinder supports the chopping block and the upper material pressing cylinder assists in compressing.

The height of the pressure plate at the time when the cutting board is just lifted cannot exceed the height of the cutting assembly.

Further, the cutting assembly comprises a fixed cutting motor and a cutter arranged at the front end of the cutting motor.

Further, cutting assembly sets up in cutting assembly installation sleeve, and the air intake is established to cutting assembly installation sleeve's front end on the board, and the cutter front end knife tip stretches out in from the air intake, and the air exit is established to cutting assembly installation sleeve side, and the air exit communicates with the space that cutting assembly installation sleeve interior cutter place.

Further, be equipped with one on the cutting assembly installation sleeve front end plate with the vertical separation blade of cutting assembly installation sleeve front end plate, vertical separation blade forms right angle limit structure with the combination of cutting assembly installation sleeve front end plate, four sets of cutting assembly's four right angle limit structure and the cooperation of four angles of chopping block, the restriction chopping block is at the four-way degree of freedom in the in-process that rises in the horizontal plane, has realized the horizontal four-way location to the chopping block in the processing.

Furthermore, in order to adapt to cutting boards with different specifications, the invention provides an adjustable structural scheme aiming at lifting type cutting board chamfering equipment. Equipment still includes about two horizontal slidable bottom plates that set up (the utility model discloses use the orientation of chopping block business turn over material as vertical, the orientation of perpendicular to chopping block business turn over material orientation is horizontal), two liang of a set of settings respectively on two bottom plates of four sets of cutting assemblies. Specifically, the method comprises the following steps: two cutting assembly mounting base plates are respectively arranged on the two bottom plates, the cutting assembly mounting base plates are arranged on the bottom plates through longitudinal linear sliding rail mechanisms, and the four sets of cutting assemblies are respectively arranged on the four cutting assembly mounting base plates. The cutting assembly mounting block is longitudinally positioned relative to the base plate using a screw mechanism.

The distance between the two bottom plates is adjusted, so that the distance between the two sets of cutting assemblies on one bottom plate and the two sets of cutting assemblies on the other bottom plate can be adjusted, and the cutting device is suitable for different transverse widths of different cutting boards. The screw rod mechanism between the cutting assembly mounting seat plate and the bottom plate is adjusted, so that the adjustment of the distance between the two sets of cutting assemblies on the same bottom plate can be realized, and the cutting assembly is suitable for different longitudinal widths of different chopping boards.

Furthermore, the two cutting assembly mounting base plates on the same side are positioned through a set of longitudinal screw rod mechanism, the longitudinal screw rod mechanism comprises a longitudinal adjusting screw rod provided with two sections of threads in different directions, and two thread sleeves fixed with the two cutting assembly mounting base plates on the same bottom plate are respectively assembled at the two sections of threads of the longitudinal adjusting screw rod. When the screw rod rotates, the two sets of cutting assemblies on the same side move in the opposite direction or in the opposite direction along with the mounting base plate.

Furthermore, the transmission mechanism with the transmission ratio of 1 comprises a prismatic shaft and two sliding shaft sleeves sleeved on the prismatic shaft, the two sliding shaft sleeves are respectively installed in two bearing seats through bearings, the two bearing seats are respectively fixed relative to the two bottom plates, a bevel gear is fixedly installed on each sliding shaft sleeve, a central hole of each sliding shaft sleeve is provided with a prismatic through hole, and the prismatic shaft penetrates through the sliding shaft sleeves and is arranged on the rack through a revolute pair. The end parts of the two longitudinal adjusting screw rods are respectively fixedly provided with a bevel gear, and the bevel gears at the end parts of the two longitudinal adjusting screw rods are respectively meshed with the bevel gears on the two sliding shaft sleeves.

The utility model has the advantages that: 1. the utility model discloses a support and rise processing mode of chamfer provides the condition for realizing chopping block four corners simultaneous processing. 2. By adopting the lifting chamfering method, the chopping board is in a horizontal state in the whole treatment process, and conditions are provided for horizontal transmission of the chopping board. 3. Contrast prior art, use the one-way conveying of double-chain, transport mechanism becomes simple, and equipment is retrencied, 4, contrast prior art, adopts the cylinder to go up and down, and the cylinder of top assists compressing tightly when the cylinder of below holds in the palm the liter, and the chopping block is difficult for sliding, and machining precision and machining efficiency are high.

Drawings

Fig. 1 is a schematic view of the overall structure of an embodiment of the chamfering apparatus according to the present invention.

FIG. 2 is a schematic view of a front view structure of the chamfering apparatus of the present invention.

FIG. 3 is a schematic structural diagram of a feeding mechanism and an anvil chamfering device.

Fig. 4 is a schematic view of the structure of the base plate and its components.

Fig. 5 is a schematic view of the construction of the cutting assembly.

Fig. 6 is a top view of the cutting assembly shown in fig. 5.

Description of the labeling: 11. a frame; 12. a base plate; 13. a transverse slide rail mechanism;

21. a feeding chain; 22. a stopper; 23. a drive sprocket; 24. driven sprocket

31. A lifting cylinder; 32. a lifting plate; 33. supporting and lifting an air cylinder mounting seat; 34. supporting a lift cylinder strut; 35. a material pressing cylinder; 36. a material pressing plate; 37. auxiliary material pressing sheets; 38. a material pressing cylinder bracket; 39. a front sensor; 40. rear sensor

411. A base; 412. a support pillar; 413. a shaft mounting plate; 42. a longitudinal linear slide rail mechanism; 431. a threaded sleeve; 432. a longitudinal screw rod; 441. a driven bevel gear; 442. a bevel gear; 45. a cross shaft; 46. a cutting component mounting base plate; 461. a bearing seat; 47. a reset tension spring; 48. a top rod;

5. a cutting assembly; 51. a cutting assembly mounting sleeve; 511. an air inlet; 512. an air outlet; 513. a vertical baffle plate; 52. cutting the motor; 53. and (4) a cutter.

Detailed Description

The structure and the working principle of the device for chamfering the four corners of the chopping block of the present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1-6, this embodiment shows an apparatus for chamfering an anvil, which comprises a frame 11, a conveying mechanism, a lifting mechanism and an anvil chamfering device sequentially arranged on the frame from back to front with the conveying direction of the anvil as the front.

The conveying mechanism, the supporting and lifting mechanism and the chopping board chamfering device are all arranged on the rack 11.

The conveying mechanism comprises two sets of chain mechanisms which are transversely arranged and are parallel to each other. Each set of chain mechanism comprises a driving chain wheel 23, a driven chain wheel 24 and a closed feeding chain 21, the driving chain wheels of the two chain mechanisms are coaxially arranged, and the driven chain wheels of the two chain mechanisms are coaxially arranged. The feeding chains 21 are provided with small block blocks 22, and the block blocks 22 on the two feeding chains 21 are correspondingly arranged at the same position. The stop block 22 is used for pushing the chopping blocks to be conveyed, and the chopping blocks are placed on the two feeding chains 21 and conveyed by the stop block 22. The chain mechanism is driven by a motor which first drives a shaft on which two drive sprockets are mounted, thereby enabling the entire transport mechanism to operate.

The chopping block supporting and lifting mechanism comprises a supporting and lifting component, a material pressing component, a sensor and a controller. The lifting assembly comprises a lifting cylinder 32, a lifting plate 33 and a lifting cylinder electromagnetic valve; the lifting cylinder 32 and the lifting cylinder electromagnetic valve are arranged on the frame 11; the inlet and outlet pipe orifices of the lifting cylinder 32 are connected with the lifting cylinder electromagnetic valve; the lower end of the lifting plate 33 is fixedly connected with a piston rod of the lifting cylinder 32; and the signal input end of the lifting air cylinder electromagnetic valve is connected with one signal output end of the controller.

The pressing component comprises a pressing cylinder 35, a pressing plate 36 and a pressing cylinder electromagnetic valve; the material pressing cylinder 35 and the material pressing cylinder electromagnetic valve are arranged on the rack 11; the upper end of the pressing plate 36 is fixedly connected with a piston rod of the pressing cylinder 35. The air inlet and outlet pipe port of the material pressing cylinder 35 is connected with a material pressing cylinder electromagnetic valve;

the frame 11 comprises a lifting air cylinder mounting seat 33 and a material pressing air cylinder bracket 38; the lifting cylinder mounting base 33 comprises a lifting cylinder support 34; the lifting cylinder electromagnetic valve is arranged on the lifting cylinder mounting seat 33; the lifting cylinder 32 is arranged on a lifting cylinder mounting seat and a lifting cylinder support 34; the material pressing cylinder 35 and the material pressing cylinder electromagnetic valve are installed on the material pressing cylinder support 38.

An auxiliary material pressing sheet 37 is arranged on the material pressing plate 36; the auxiliary pressing piece is a bent iron piece with a certain thickness and is used for auxiliary pressing of the chopping board. The cooperation of the lifting mechanism and the feeding mechanism requires the participation of a sensor and a controller. The front sensor 39 and the rear sensor 40 are mounted on the frame 11, and are positioned on the same horizontal line with the cutting board, close to the lifting board 32 (shown in fig. 1);

specifically, when the anvil is transferred to the front sensor 39, the front sensor 39 senses the anvil and sends a signal to a controller (not shown) which receives the signal and sends a signal to the transport system to slow down the transport system, thereby slowing down the anvil transport; when the anvil reaches the rear sensor 40, the rear sensor 40 sends a signal to the controller, which controls the conveyor system to stop and informs the lift cylinder 31 of the lift mechanism to start moving.

The operation process of the lifting mechanism is as follows: at the beginning, the piston rod of the lifting cylinder 31 is in a contraction state, and the piston rod of the material pressing cylinder 35 is always kept in an extension state, so that a downward force always acts on the chopping board when the chopping board contacts the material pressing board 36, and the chopping board is pressed.

The height of the blade 36 at the point when the anvil is first raised cannot exceed the height of the cutting assembly. Two cutting assembly mounting base plates 46 are respectively arranged on the two bottom plates 12, the cutting assembly mounting base plates 46 are arranged on the bottom plates 12 through longitudinal linear sliding rail mechanisms 42, and the four sets of cutting assemblies 5 are respectively arranged on the four cutting assembly mounting base plates 46 through the cutting assembly mounting bases.

A thread sleeve 431 is fixed below each cutting assembly mounting seat plate 46, a longitudinal screw rod 432 is mounted on each bottom plate 12 through a bearing, and two sections of threads are arranged on the longitudinal screw rod 432 and are opposite in direction. The thread sleeves 431 below the two cutting assembly mounting base plates 46 on the same bottom plate 12 are respectively sleeved on two threads of a longitudinal screw rod 432.

The same side end parts of the two longitudinal screw rods 432 are respectively fixedly provided with a driven bevel gear 441, and two bevel gears 442 which are respectively meshed with the bevel gears 441 at the end parts of the two longitudinal screw rods 432 are respectively and fixedly arranged on the two sliding shaft sleeves. The two sliding shaft sleeves are respectively installed in the two bearing seats through bearings, the two bearing seats are respectively fixed relative to the two base plates 12, central holes of the two sliding shaft sleeves are all provided with prismatic through holes, a prismatic shaft respectively penetrates through the two sliding shaft sleeves, and two ends of the prismatic shaft are assembled on the rack 11 through the bearings.

The cutting assembly mount includes a base 411 and a support column 412, the cutting assembly 5 is disposed on the upper end of the support column 412 of the cutting assembly mount, and the cutting assembly mounting sleeve 51 of the cutting assembly 5 is fixed to the support column of the cutting assembly mount. A cross-pin 45 is provided below the base 411 of the cutting assembly mount,

two bearing seats 461 are arranged on the cutting assembly mounting base plate 46, and two transverse shaft ends of the cross shaft 45 are assembled in the two bearing seats 461 through bearings. Two shaft mounting plates 413 are arranged on the lower side of the base 411 of the cutting assembly mounting seat, and two longitudinal shaft ends of the cross shaft 45 are assembled on the two shaft mounting plates 413 through bearings. A reset tension spring 47 is vertically arranged on an angular bisector of a right angle included angle formed by two adjacent shaft ends of the cross shaft 45. The upper end of the reset tension spring 47 is connected with the base 411 of the cutting assembly mounting seat, and the lower end of the reset tension spring is connected with the end part of a connecting piece arranged on the base 411 of the cutting assembly mounting seat.

The middle of the connecting piece arranged on the base 411 of the cutting assembly mounting seat is provided with a bolt as a mandril 48 by welding a nut. Each cutting assembly 5 is disposed within a cutting assembly mounting sleeve 51, the cutting assembly mounting sleeve 51 is secured to the upper end of the support column 412 of the cutting assembly mount, and each cutting assembly 5 includes a fixed cutting motor 52 and a cutter 53 mounted at the front end of the motor.

An air inlet 511 is arranged on the front end plate of the cutting component mounting sleeve 51, the front end tool nose of the cutter 53 extends out from the air inlet 511, an air outlet 512 is arranged on the side surface of the cutting component mounting sleeve 51, and the air outlet 512 is communicated with the space where the cutter 53 is arranged in the cutting component mounting sleeve 51. The front end plate of the cutting assembly mounting sleeve 51 is provided with a vertical baffle 513 perpendicular to the front end plate of the cutting assembly mounting sleeve 51, and the vertical baffle 513 is combined with the front end plate of the cutting assembly mounting sleeve 51 to form a right-angle limiting structure. The lower ends of the vertical baffle plates 513 of the two sets of cutting assemblies 5 on the incoming side are provided with bent parts bent towards the incoming side.

Claims (9)

1. A device for chamfering the four corners of a cutting board comprises a conveying mechanism for conveying the cutting board, a cutting board supporting and lifting mechanism for horizontally supporting and lifting the cutting board, and four sets of cutting assemblies for chamfering the corners of the cutting board; the four sets of cutting components are respectively arranged corresponding to four corners of the supported cutting board, and when the cutting board is horizontally supported by the cutting board supporting mechanism, the cutting board is cut by the four corners of the cutter heads of the four sets of cutting components;

the chopping board lifting mechanism is characterized in that the chopping board lifting mechanism is arranged on the rack; the chopping board lifting mechanism comprises a lifting component, a pressing component, a sensor and a controller; the lifting assembly comprises a lifting cylinder, a lifting plate and a lifting cylinder electromagnetic valve; the lifting cylinder and the lifting cylinder electromagnetic valve are arranged on the frame; the air inlet and outlet pipe port of the lifting cylinder is connected with a lifting cylinder electromagnetic valve; the lower end of the lifting plate is fixedly connected with a piston rod of a lifting cylinder; the lifting cylinder mounting seat is arranged on the rack; the signal input end of the lifting cylinder electromagnetic valve is connected with one signal output end of the controller;

the sensor and the controller are arranged on the frame, and the signal output end of the sensor is connected with one signal input end of the controller; when the controller receives a signal sent by the sensor, the controller outputs a signal for controlling the rising of the movable cold rod of the lifting cylinder to the electromagnetic valve of the lifting cylinder; the material pressing assembly comprises a material pressing cylinder, a material pressing plate and a material pressing cylinder electromagnetic valve; the material pressing cylinder and the material pressing cylinder electromagnetic valve are arranged on the rack; the upper end of the material pressing plate is fixedly connected with a piston rod of the material pressing cylinder; the inlet and outlet pipe orifices of the material pressing cylinder are connected with a material pressing cylinder electromagnetic valve; the signal input end of the material pressing cylinder electromagnetic valve is connected with one signal output end of the controller;

the piston rod of the material pressing cylinder keeps in an extending state all the time, the chopping board is supported by the supporting mechanism to be lifted up to contact the material pressing board and then can bear downward pressure all the time, and the driving force of the material pressing cylinder is smaller than that of the supporting cylinder; the conveying mechanism is arranged on the rack and comprises two sets of chain mechanisms which are transversely arranged and are parallel to each other; each set of chain mechanism comprises a driving chain wheel, a driven chain wheel and a closed feeding chain, the driving chain wheels of the two chain mechanisms are coaxially arranged, and the driven chain wheels of the two chain mechanisms are coaxially arranged; a plurality of small block stoppers are arranged on the feeding chains, and the stoppers on the two feeding chains are correspondingly arranged at the same position.

2. The apparatus for chamfering the four corners of a cutting board according to claim 1, wherein the frame further comprises a lift cylinder mounting seat and a material pressing cylinder support; the lifting cylinder mounting base comprises a lifting cylinder support; the lifting cylinder electromagnetic valve is arranged on the lifting cylinder mounting seat; the lifting cylinder is arranged on the lifting cylinder mounting seat and the lifting cylinder support; the material pressing cylinder and the material pressing cylinder electromagnetic valve are arranged on the material pressing cylinder support.

3. The equipment for chamfering the four corners of the cutting board according to claim 1, wherein an auxiliary material pressing piece is arranged on the material pressing plate; the auxiliary pressing piece is a bent iron piece with a certain thickness and is used for auxiliary pressing of the chopping board.

4. The apparatus as claimed in claim 1, wherein two of said sensors are installed on the frame, and are positioned on the same horizontal line as the anvil being transferred and close to the lift cylinder; the controller receives signals of the front sensor, sends a deceleration signal to the conveying system, receives signals of the rear sensor, sends a stop signal to the conveying system and outputs a signal for controlling the lifting of the piston rod of the lifting cylinder to the electromagnetic valve of the lifting cylinder.

5. The apparatus as claimed in claim 1, wherein the cutting assembly comprises a fixed cutting motor and a cutter mounted at the front end of the cutting motor, the cutting assembly is disposed in the cutting assembly mounting sleeve, the front end plate of the cutting assembly mounting sleeve is provided with an air inlet, the front end of the cutter protrudes from the air inlet, the side of the cutting assembly mounting sleeve is provided with an air outlet, and the air outlet is communicated with the space where the cutter is disposed in the cutting assembly mounting sleeve.

6. The apparatus as claimed in claim 1, further comprising left and right bottom plates slidably disposed in the transverse direction, wherein the four sets of cutting assemblies are disposed on the two bottom plates in a group of two by two.

7. The apparatus for chamfering the four corners of an anvil according to claim 6, wherein two cutting assembly mounting seats are provided on each of the two bottom plates, the cutting assembly mounting seats are provided on the bottom plates through a longitudinal linear slide mechanism, and the four sets of cutting assemblies are respectively provided on four cutting assembly mounting seats; the cutting assembly mounting block is longitudinally positioned relative to the base plate using a screw mechanism.

8. The apparatus as claimed in claim 7, wherein the two cutting assembly mounting plates on the same side are positioned by a set of longitudinal screw mechanism, the longitudinal screw mechanism comprises a longitudinal adjusting screw with two sections of threads in different directions, and two thread sets fixed to the two cutting assembly mounting plates on the same bottom plate are respectively assembled at the two sections of threads of the longitudinal adjusting screw.

9. The apparatus as claimed in claim 8, wherein the two longitudinal adjusting screws on the left and right sides are connected by a transmission mechanism with a transmission ratio of 1; the transmission mechanism with the transmission ratio of 1 comprises a prismatic shaft and two sliding shaft sleeves sleeved on the prismatic shaft, the two sliding shaft sleeves are respectively arranged in two bearing seats through bearings, the two bearing seats are respectively fixed relative to the two bottom plates, a bevel gear is fixedly arranged on each sliding shaft sleeve, a central hole of each sliding shaft sleeve is provided with a prismatic through hole, and the prismatic shaft penetrates through the sliding shaft sleeves and is arranged on the rack through a revolute pair; the end parts of the two longitudinal adjusting screw rods are respectively fixedly provided with a bevel gear, and the bevel gears at the end parts of the two longitudinal adjusting screw rods are respectively meshed with the bevel gears on the two sliding shaft sleeves.