CN219882056U - Chopping board processing production line - Google Patents

Abstract

The utility model relates to a chopping board processing production line, which comprises a chamfering device, a sand edge device, a branding device and a sanding device which are arranged in sequence along the transverse direction, wherein the chamfering device is used for chamfering the peripheral side edges of a chopping board; the sand edge device carries out sand edge treatment on the peripheral side surfaces of the chopping board; the branding device carries out branding treatment on the rear side surface of the chopping board; the sanding device performs sanding treatment on the top surface and the bottom surface of the chopping board. The chamfering device, the sand edge device, the branding device and the sanding device are integrated, chamfering, sand edge, branding and sanding treatment of the chopping board can be continuously carried out, the carrying time of the chopping board among different procedures is reduced, the overall production efficiency is improved, and continuous production of the chopping board is facilitated.

Description

Chopping board processing production line

Technical field:

the utility model relates to a chopping board processing production line.

The background technology is as follows:

chopping boards, that is, chopping boards, are boards that are placed on a table or a kitchen range to prevent damage to the table or kitchen range when cutting vegetables. At present, the chopping board needs to be sequentially subjected to chamfering of the peripheral side edges, sanding of the peripheral side edges and branding treatment of the side surfaces and sanding of the top surface and the bottom surface in the production process.

However, in the current chopping board processing production process, chamfering, sand edge, branding and sanding processes of the chopping board are independent, a continuous production line is not formed, the chopping board needs to be moved to the next process by means of carrying equipment after the processing of one process is finished, the whole process is relatively more time-consuming, the production efficiency is reduced, and continuous production is not facilitated. If the procedures can be organically combined to form continuous production, the conveying time of the chopping board among different procedures is shortened, the whole production time is shortened, and the production efficiency is obviously improved.

The foregoing is not necessarily a prior art, and falls within the technical scope of the inventors.

The utility model comprises the following steps:

the utility model aims at improving the problems existing in the prior art, namely the technical problem to be solved by the utility model is to provide a chopping board processing production line which is reasonable in design, convenient for forming continuous production and improves production efficiency.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: a chopping board processing production line comprises a chamfering device, a sand edge device, a branding device and a sanding device which are arranged in sequence along the transverse direction;

the chamfering device comprises a transverse conveyor belt A, a protective cover A with an open bottom is arranged above the transverse conveyor belt A, a first chamfering assembly and a second chamfering assembly are sequentially arranged in the protective cover A from left to right, the first chamfering assembly comprises a pair of first double-sided chamfering grinding wheels which are distributed on the front side and the rear side of the transverse conveyor belt A, the first double-sided chamfering grinding wheels are vertically arranged, and the pair of first double-sided chamfering grinding wheels are used for chamfering the side edges of the front end and the rear end of a chopping board respectively; the second chamfering assembly comprises a pair of vertically arranged second double-sided chamfering grinding wheels which are distributed at intervals left and right, and the pair of second double-sided chamfering grinding wheels are driven by the longitudinal moving mechanism A to move back and forth respectively so as to chamfer the side edges of the left end and the right end of the chopping board;

the sand edge device comprises a first transverse conveyor belt A and a second transverse conveyor belt B which are distributed in parallel along the transverse direction, wherein the left end of the first transverse conveyor belt A is connected with the right end of the transverse conveyor belt A, a sand edge yielding port is arranged between the first transverse conveyor belt A and the second transverse conveyor belt B, a first sand edge wheel which is driven by a longitudinal moving mechanism B to move forwards and backwards is arranged above the sand edge yielding port, and the first sand edge wheel is used for sequentially carrying out sand edges on the right side surface of a chopping board positioned at the right end of the first transverse conveyor belt A and the left side surface of a chopping board positioned at the left end of the second transverse conveyor belt B; a pair of second sand edge wheels are arranged above the right end of the second transverse conveyor belt B, and are distributed on the front side and the rear side of the second transverse conveyor belt B and used for sand edges on the front side and the rear side of the chopping board on the second transverse conveyor belt B;

the branding device comprises a transverse conveying belt B, the left end of the transverse conveying belt B is connected with the right end of a second transverse conveying belt B, a positioning push plate and a positioning backup plate which are distributed in a front-back opposite mode are arranged above the transverse conveying belt B, and the positioning push plate is driven by a first moving mechanism to move towards the positioning backup plate so as to push the chopping board to the rear side face to abut against the positioning backup plate; the positioning backup plate is provided with a branding relief hole which is longitudinally communicated, and a branding die which is driven by a second moving mechanism to longitudinally move is arranged in the branding relief hole;

the sanding device comprises a first transverse conveyor belt C and a second transverse conveyor belt D, wherein the left end of the first transverse conveyor belt C is connected with the left end of the transverse conveyor belt B, a first sanding roller for sanding the top surface of the chopping board is arranged above the first transverse conveyor belt C, and the first sanding roller is longitudinally arranged; and a second sanding roller for sanding the bottom surface of the chopping board is arranged between the first transverse conveyor belt C and the second transverse conveyor belt D.

Further, the lower ends of the left side wall and the right side wall of the protective cover A are respectively provided with a chopping board input port A and a chopping board output port A; the pair of second double-sided chamfering grinding wheels are positioned above the pair of first double-sided chamfering grinding wheels, a lifting assembly for driving the chopping board to vertically lift is arranged between the pair of second double-sided chamfering grinding wheels, and the lifting assembly drives the chopping board on the transverse conveyor belt A to move upwards to correspond to the positions of the pair of second double-sided chamfering grinding wheels; the lifting assembly comprises a lifting plate which is horizontally arranged, the lifting plate is driven to lift by a first lifting cylinder which is vertically arranged above the lifting plate, and a plurality of adsorption nozzles for adsorbing the chopping board are distributed at the bottom of the lifting plate.

Further, the first double-sided chamfering grinding wheel and the second double-sided chamfering grinding wheel both comprise two truncated cones which are distributed symmetrically up and down, the middle parts of the two truncated cones are connected with vertical rotating shafts, and the vertical rotating shafts are driven to rotate by chamfering motors positioned above the vertical rotating shafts; the left side of first chamfer subassembly is equipped with chopping board guide assembly A, chopping board guide assembly A includes a plurality of leading wheel A along horizontal interval equipartition, and a plurality of leading wheel A is installed on leading truck A, leading truck A is driven along vertical lift by the second lift cylinder A of vertically locating its top.

Further, the sand edge device further comprises a protective cover B arranged above the first transverse conveyor belt A and the second transverse conveyor belt B, the lower ends of the left side wall and the right side wall of the protective cover B are respectively provided with a chopping board input port B and a chopping board output port B, the chopping board input port B is arranged above the first transverse conveyor belt, the chopping board output port B is arranged above the second transverse conveyor belt B and is arranged on the right side of a pair of second sand edge wheels; the first sand edge wheels are driven to rotate by first sand edge motors vertically arranged above the first sand edge wheels, and each first sand edge wheel is driven to rotate by second sand edge motors vertically arranged above the first sand edge wheels; the longitudinal moving mechanism is a longitudinally arranged ball screw nut pair, and the ball screw nut pair is arranged on the inner top surface of the protective cover; the first sand edge motor is arranged at the bottom of the moving end of the ball screw nut pair.

Further, a first chopping board guide assembly B and a second chopping board guide assembly C are respectively arranged above the first transverse conveyor belt A and the second transverse conveyor belt B, the first chopping board guide assembly B is positioned at the left side of the first sand edge wheel, and the second chopping board guide assembly C is positioned at the left side of the pair of second sand edge wheels; the first chopping board guide assembly B and the second chopping board guide assembly C comprise a plurality of guide wheels B which are uniformly distributed along the transverse interval, the guide wheels B are arranged on a guide frame B, the guide frame B is vertically lifted by a lifting cylinder B vertically arranged above the guide frame B, and the lifting cylinder B is arranged on the inner top surface of a protective cover B.

Further, the positioning push plate is in a horizontal L shape, the longitudinal edge of the positioning push plate is used for being in contact with the right side surface of the chopping board, the transverse edge of the positioning push plate is connected with a first moving mechanism, the first moving mechanism is a moving cylinder longitudinally arranged at the front side of the positioning push plate, and the tail end of a cylinder rod of the moving cylinder is connected with the middle part of the transverse edge of the positioning push plate so as to drive the positioning push plate to longitudinally move; the second moving mechanism comprises a branding driving cylinder longitudinally arranged at the rear side of the positioning backup plate, the position of the branding driving cylinder corresponds to the position of the branding abdicating hole, a cylinder rod of the branding driving cylinder extends towards the branding abdicating hole, the tail end of the branding driving cylinder is fixedly provided with a branding moving seat, and the branding die is arranged on the front side surface of the branding moving seat.

Further, a cleaning brush which is used for being contacted with the rear side surface of the chopping board is arranged on the left side of the positioning backup board; a cleaning fan for blowing away dust on the rear side surface of the chopping board is arranged between the cleaning brush and the positioning backup board; and the right side of the positioning backup plate is provided with a cooling fan for blowing air to the rear side surface of the chopping board.

Further, the sanding device further comprises a protective cover C arranged above the first transverse conveyor belt C and the second transverse conveyor belt D, wherein a chopping board input port C and a chopping board output port C are respectively arranged at the lower ends of the left side wall and the right side wall of the protective cover C, the chopping board input port C is arranged above the first transverse conveyor belt C, and the chopping board output port C is arranged above the second transverse conveyor belt D and is arranged on the right side of the second sanding roller; the first sanding roller is driven to rotate by a first sanding motor positioned at the front side of the first sanding roller; the second sanding roller is driven to rotate by a second sanding motor positioned at the front side of the second sanding roller, and the first sanding motor and the second sanding motor are both arranged on the inner side wall at the front end of the protective cover.

Further, a pair of chopping board guide roller sets are arranged on the left side of the first sanding roller, the chopping board guide roller sets are respectively arranged on the front side and the rear side of the first transverse conveyor belt C, each chopping board guide roller set comprises a plurality of conveying guide rollers which are uniformly distributed along the transverse direction at intervals, and the conveying guide rollers are vertically arranged; the right-hand member of first horizontal conveyer belt C and the top of second sand smooth roller are equipped with chopping board direction subassembly D, chopping board direction subassembly D all includes a plurality of along the leading wheel D of horizontal interval equipartition, and a plurality of leading wheel D is installed on leading truck D, leading truck D is driven along vertical lift by the lift cylinder D of vertically locating its top, lift cylinder D installs the inside top surface at protection casing C.

Compared with the prior art, the utility model has the following effects: the chamfering device, the sand edge device, the branding device and the sanding device are integrated, chamfering, sand edge, branding and sanding treatment of the chopping board can be continuously carried out, the carrying time of the chopping board among different procedures is reduced, the overall production efficiency is improved, and continuous production of the chopping board is facilitated.

Description of the drawings:

FIG. 1 is a schematic top view of an embodiment of the present utility model;

FIG. 2 is a schematic view of a front sectional configuration of the chamfering device;

FIG. 3 is a schematic top view of the chamfering device;

FIG. 4 is a schematic view showing a state in which a pair of second double-sided chamfering grinding wheels in FIG. 2 chamfer a chopping board;

FIG. 5 is a schematic view of the construction of a first double-sided chamfer grinding wheel and a second double-sided chamfer grinding wheel;

FIG. 6 is a schematic view of a schematic cross-sectional front view of a sand edge device;

FIG. 7 is a schematic top view of a sand edge device;

FIG. 8 is a schematic view showing a state in which the left side surface of the chopping board of the first sand wheel set in FIG. 6 is processed;

FIG. 9 is a schematic view showing a state that a pair of second grinding wheel sets are processed on the front side and the rear side of the chopping board in FIG. 6;

FIG. 10 is a schematic top view of a branding device;

FIG. 11 is a schematic view of a front cross-sectional configuration of a sanding apparatus;

FIG. 12 is a schematic top view of a sanding apparatus;

fig. 13 is a schematic view showing the construction of the sanding treatment of the bottom surface of the chopping board by the second sanding roller in fig. 11.

The specific embodiment is as follows:

the utility model will be described in further detail with reference to the drawings and the detailed description.

In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

As shown in FIG. 1, the cutting board processing production line comprises a chamfering device 101, a sand edge device 200, a branding device 400 and a sanding device 300 which are arranged in sequence along the transverse direction, wherein the chamfering device 101 performs chamfering treatment on the peripheral side edges of the cutting board; the sand edge device 200 carries out sand edge treatment on the peripheral side surfaces of the chopping board; the branding device 400 carries out branding treatment on the rear side surface of the chopping board; the sanding device 300 performs sanding treatment on the top and bottom surfaces of the chopping board.

As shown in fig. 2-5, the chamfering device 101 comprises a transverse conveying belt a100 for conveying a horizontally placed chopping board along the transverse conveying belt, wherein the front end and the rear end of the chopping board extend out of the transverse conveying belt respectively, a protective cover a102 with an open bottom is arranged above the transverse conveying belt a100, a chopping board input port a103 and a chopping board output port a104 are respectively arranged at the lower ends of the left side wall and the right side wall of the protective cover a102, a first chamfering assembly and a second chamfering assembly are sequentially arranged inside the protective cover a102 from left to right, the first chamfering assembly comprises a pair of first double-sided chamfering grinding wheels 105 distributed on the front side and the rear side of the transverse conveying belt a100, the first double-sided chamfering grinding wheels 105 are vertically arranged, and when the chopping board passes through the pair of first double-sided chamfering grinding wheels 105 under the driving of the transverse conveying belt a100, the pair of first double-sided chamfering grinding wheels 105 are used for chamfering the side edges of the front end and the rear end of the chopping board 101 respectively; the second chamfering assembly comprises a pair of second double-sided chamfering grinding wheels 106 which are distributed at intervals left and right and are vertically arranged, when the chopping board is driven by the transverse conveying belt A100 to move between the pair of second double-sided chamfering grinding wheels 106, the transverse conveying belt A100 stops working, and the pair of second double-sided chamfering grinding wheels 106 are driven by the longitudinal moving mechanism to move forwards and backwards respectively so as to chamfer the side edges of the left end and the right end of the chopping board. The device reasonable in design, during operation is used for chamfering the side of chopping board front and back both ends respectively through a pair of first two-sided chamfer emery wheel earlier, and the side at the left and right both ends of chopping board is chamfered to a pair of second two-sided chamfer emery wheel of recycle, need not to trade face, rotary operation in the course of working, not only convenient operation, effectively improves machining efficiency moreover.

In another embodiment, a pair of second double-sided chamfering grinding wheels 106 are located above a pair of first double-sided chamfering grinding wheels 105, a lifting assembly for driving the chopping board 101 to lift vertically is arranged between the pair of second double-sided chamfering grinding wheels 106, and when the chopping board moves between the pair of second double-sided chamfering grinding wheels 106 under the driving of the transverse conveyor belt, the lifting assembly drives the chopping board on the transverse conveyor belt to move upwards to correspond to the positions of the pair of second double-sided chamfering grinding wheels, so that the pair of second double-sided chamfering grinding wheels are beneficial to chamfering the side edges of the left and right ends of the chopping board.

In another embodiment, the lifting assembly comprises a lifting plate 107 horizontally arranged, the lifting plate 107 is driven to lift by a first lifting cylinder 108 vertically arranged above the lifting plate 107, and a plurality of adsorption nozzles 109 for adsorbing the tops of the chopping boards are distributed at the bottom of the lifting plate 107.

In another embodiment, the first double-sided chamfering grinding wheel 105 and the second double-sided chamfering grinding wheel 106 each include two truncated cone bodies 110 which are vertically symmetrically distributed, the peripheral sides of the truncated cone bodies are grinding portions, the middle portions of the two truncated cone bodies 110 are connected with a vertical rotating shaft 111, and the vertical rotating shaft 111 is driven to rotate by a chamfering motor 112 located above the vertical rotating shaft 111, namely: the chamfering motor drives the two truncated cone bodies to synchronously rotate through the vertical rotating shaft, so that chamfering processing is realized.

In another embodiment, a cutting board guiding assembly A is arranged on the left side of the first chamfering assembly, the cutting board guiding assembly A comprises a plurality of guiding wheels A113 which are uniformly distributed along the transverse direction at intervals, the plurality of guiding wheels A113 are arranged on a guiding frame A114, and the guiding frame A114 is driven by a second lifting cylinder A115 which is vertically arranged above the guiding frame A114 to vertically lift. The guide wheels are distributed transversely, so that the cutting board is conveyed and guided when the first chamfering assembly is processed. The guide wheel is designed to be liftable so as to adjust the distance between the guide wheel and the transverse conveyor belt and further adapt to chopping boards with different thicknesses.

In another embodiment, the longitudinal moving mechanism a is a ball screw nut pair a116 longitudinally arranged, the ball screw nut pair a is mounted on the inner top surface of the protective cover a, and the chamfering motor of the second chamfering assembly is vertically mounted at the bottom of the moving end of the ball screw nut pair a.

In another embodiment, the sides of the two truncated cones 110 are provided with a layer of diamond material.

In another embodiment, the included angle between the sides of the two truncated cones is 40-45 degrees.

In another embodiment, the structures of the two truncated cones are identical.

As shown in fig. 6 to 9, the sand edge device 200 includes a first transverse conveyor a201 and a second transverse conveyor B202 which are distributed side by side in the transverse direction and are used for conveying the chopping boards from left to right, a gap is formed between the first transverse conveyor a201 and the second transverse conveyor B202, the gap is a sand edge yielding port 204, a first sand edge wheel 205 which is driven by a longitudinal moving mechanism to move back and forth is arranged above the sand edge yielding port 204, and the first sand edge wheel 205 is used for sequentially sand edges the right side surface of the chopping board 203 positioned at the right end of the first transverse conveyor a201 and the left side surface of the chopping board 203 positioned at the left end of the second transverse conveyor B202; a pair of second sand wheels 206 is disposed above the right end of the second transverse conveyor B202, and the pair of sand wheels 206 are distributed on the front and rear sides of the second transverse conveyor B202, so as to sand the front and rear sides of the chopping board on the second transverse conveyor B202.

When the cutting board is in operation, the cutting board is horizontally placed at the left end of the first transverse conveyor belt A201, the front end and the rear end of the cutting board extend out of the first transverse conveyor belt A201, and the cutting board is conveyed from left to right by the first transverse conveyor belt A201; when the right end of the chopping board is positioned at the left end of the sand edge abdication port 204, the first transverse conveyor belt A201 stops conveying, the longitudinal moving mechanism drives the first sand edge wheel 205 to move from front to back, and the peripheral side surface of the first sand edge wheel 205 is contacted with the right side surface of the chopping board, so that sand edge treatment is carried out on the right side surface of the chopping board; then the first transverse conveyor belt A201 continues to convey the chopping board from left to right, so that the chopping board is conveyed to the second transverse conveyor belt B202, and the chopping board is conveyed from left to right by the second transverse conveyor belt B202; when the left end of the chopping board is positioned at the right end of the sand edge abdication port 204, the second transverse conveyor belt B202 stops conveying, the longitudinal moving mechanism drives the first sand edge wheel 205 to move from back to front, the peripheral side surface of the first sand edge wheel 205 is contacted with the left side surface of the chopping board, so that the sand edge treatment of the left side surface of the chopping board is realized, and the sand edge treatment of the left side surface and the right side surface of the chopping board is finished; finally, the second transverse conveyor B202 continues to convey the cutting board 203 from left to right, and as the cutting board passes through the pair of second edge rollers 206, the pair of edge rollers 206 respectively edge the front and rear sides of the cutting board 203. The whole process is used for finishing the treatment of the sand edges on the peripheral side surfaces of the chopping board, the rotary edge replacement of the chopping board is not needed, the operation is convenient, the production efficiency is effectively improved, and the continuous processing is facilitated.

In another embodiment, in order to play a protection effect on the sand edge treatment of the chopping board, the chopping board further comprises a cuboid-shaped protective cover B207 arranged above the first transverse conveyor belt A201 and the second transverse conveyor belt B202, chopping board input ports B208 and chopping board output ports B209 are respectively arranged at the lower ends of the left side wall and the right side wall of the protective cover B207, the chopping board input ports B208 are located above the first transverse conveyor belt A201, and the chopping board output ports B209 are located above the second transverse conveyor belt B202 and are located on the right sides of a pair of second sand edge wheels.

In another embodiment, the axis of the first sand wheel 205 is vertical, and the first sand wheel is driven to rotate by a first sand motor 210 vertically arranged above the first sand wheel; the axis of each second sand edge wheel 206 is vertical, and is respectively driven to rotate by a second sand edge motor 211 vertically arranged above the second sand edge wheel; the longitudinal moving mechanism is a ball screw nut pair B212 longitudinally arranged, and the ball screw nut pair B212 is arranged on the inner top surface of the protective cover B207; the first sand edge motor 210 is installed at the bottom of the moving end of the ball screw nut pair B212, and the ball screw nut pair drives the first sand edge motor and the first sand edge wheel to move longitudinally.

In another embodiment, a first cutting board guiding assembly B213 and a second cutting board guiding assembly C214 are respectively disposed above the first transverse conveyor a201 and the second transverse conveyor B202, the first cutting board guiding assembly B213 is located at the left side of the first grinding wheel 205, and the second cutting board guiding assembly C214 is located at the left side of the pair of second grinding wheels 206. The first chopping board guide assembly B213 and the second chopping board guide assembly C214 comprise a plurality of guide wheels B215 which are uniformly distributed along the transverse interval, the guide wheels B215 are arranged on a guide frame B216, the guide frame B216 is driven by a lifting cylinder B217 which is vertically arranged above the guide frame B216 to vertically lift, and the lifting cylinder B217 is arranged on the inner top surface of the protective cover B207. The first chopping board guide assembly B is provided with a plurality of guide wheels which are distributed transversely, so that the chopping board can be guided when conveyed by the first transverse conveyor belt, and meanwhile, the first sand edge wheel can be conveniently used for pressing the chopping board when being processed. The first chopping board guide assembly B is provided with a plurality of guide wheels which are distributed along the transverse direction, so that the first chopping board guide assembly B plays a role in conveying and guiding when a pair of second sand edge wheels are processed. The guide wheel is designed to be liftable so as to adjust the distance between the guide wheel and the transverse conveyor belt and further adapt to chopping boards with different thicknesses.

As shown in fig. 10, the branding device 400 comprises a transverse conveyor belt B401 for conveying the chopping board from left to right along the transverse direction, wherein the chopping board is horizontally arranged at the left end of the transverse conveyor belt, and the front end and the rear end of the chopping board extend out of the transverse conveyor belt B401; a positioning push plate 403 and a positioning backup plate 404 which are distributed in a front-back opposite way are arranged above the transverse conveyor belt B401, and the positioning push plate 403 is driven by a first moving mechanism to move towards the positioning backup plate so as to push the chopping board 402 to the back side surface to abut against the positioning backup plate 404; the positioning backup plate 404 is provided with a branding relief hole 405 which is longitudinally communicated, and a branding die 406 which is driven by a second moving mechanism to longitudinally move is arranged in the branding relief hole 405. Carry the chopping board that the level was placed through horizontal conveyer belt B, when the chopping board carried to between location push pedal and the location backup plate, the location push pedal was pushed the chopping board to support and lean on the location backup plate, realize fixing a position the chopping board, later the branding mould pass the branding on the location backup plate and put down the hole after contact with the trailing flank of chopping board, realize branding, the whole process need not artifical manual location chopping board, and the manual work takes off the chopping board after the branding, conveniently carry the chopping board after the branding to next process, easy operation effectively improves branding efficiency, be favorable to serialization production.

In another embodiment, the positioning push plate 403 is in a horizontal L shape, a longitudinal edge of the positioning push plate 403 is used for contacting with a right side surface of a chopping board, a transverse edge of the positioning push plate 403 and the positioning backup plate 404 form a chopping board clamping space, and the transverse edge of the positioning push plate 403 is connected with the first moving mechanism. In an initial state, the longitudinal edge of the positioning push plate is located right above the transverse conveying belt B, when the transverse conveying belt B drives the chopping board to move from left to right to the condition that the right side surface of the chopping board is abutted against the longitudinal edge of the positioning push plate, the transverse conveying belt B stops working, and then the first moving mechanism drives the positioning push plate to move towards the positioning backup plate, and the positioning backup plate and the transverse edge of the positioning push plate cooperate to clamp the chopping board from the front direction and the rear direction, so that the positioning of the chopping board is realized. When the branding is finished, the first moving mechanism drives the positioning push plate to move forwards, the longitudinal edge of the positioning push plate is not contacted with the right side surface of the chopping board any more, and the transverse conveyor belt continuously drives the chopping board to right to be conveyed to the next working procedure.

In another embodiment, the first moving mechanism is a moving cylinder 407 longitudinally arranged at the front side of the positioning push plate 403, and the end of the cylinder rod of the moving cylinder 407 is connected with the middle part of the lateral edge of the positioning push plate 403 so as to drive the positioning push plate to move longitudinally.

In another embodiment, the second moving mechanism includes a branding driving cylinder 408 longitudinally disposed at the rear side of the positioning backup plate 404, the position of the branding driving cylinder 408 corresponds to the position of the branding relief hole 405, the cylinder rod of the branding driving cylinder 408 extends out towards the branding relief hole 405 and the branding moving seat 409 is fixed at the end, and the branding die 406 is disposed at the front side of the branding moving seat 409; when the branding device works, the branding driving cylinder drives the branding die to move forwards through the branding moving seat, and the branding die passes through the branding abdicating hole and then contacts with the rear side surface of the chopping board, so that branding processing is realized.

In another embodiment, the left side of the positioning fence 404 is provided with a cleaning brush 410 for contacting the rear side of the chopping board 402. Through setting up the cleaning brush, when the trailing flank of chopping board passed through the cleaning brush, the cleaning brush can be with the residual dust brush on the chopping board trailing flank, avoids influencing the branding.

In another embodiment, in order to further improve the cleaning effect, a cleaning fan 411 is disposed between the cleaning brush 410 and the positioning backup plate 404, and the cleaning fan is used for blowing away the dust on the rear side of the chopping board.

In another embodiment, a cooling fan 412 for blowing air to the rear side of the chopping board is disposed on the right side of the positioning backup board 404. When the branded chopping board passes through the cooling fan, the cooling fan blows air to the rear side surface of the chopping board, so that the temperature of the branded position of the rear side surface of the chopping board can be reduced to a certain extent.

As shown in fig. 11-13, the sanding device 300 comprises a first transverse conveyor belt C301 and a second transverse conveyor belt D302 which are distributed side by side along the transverse direction and are used for conveying the chopping boards from left to right, wherein the chopping boards are horizontally placed at the left end of the first transverse conveyor belt C during conveying, and the front end and the rear end of the chopping boards extend out of the first transverse conveyor belt C; a first sanding roller 304 is longitudinally arranged above the first transverse conveyor belt C301, and when the first sanding roller 304 drives the chopping board 303 to pass through the first sanding roller 304 from left to right, the peripheral side surface of the first sanding roller 304 is contacted with the top surface of the chopping board, so that sanding treatment is carried out on the top surface of the chopping board; and a second sanding roller 305 is longitudinally arranged between the first transverse conveyor belt C301 and the second transverse conveyor belt D302, when the chopping board is output from the first transverse conveyor belt C301, the peripheral side surface of the second sanding roller 305 is contacted with the bottom surface of the chopping board, sanding treatment is carried out on the bottom surface of the chopping board, and then the chopping board is output by the second transverse conveyor belt D302. Through setting up first sand smooth roll in first horizontal conveyer belt C top, set up the second sand smooth roll between first horizontal conveyer belt C and second horizontal conveyer belt D, first sand smooth roll and second sand smooth roll carry out the sanding to the top surface and the bottom surface of chopping board in proper order in the transportation process and handle, once only carry promptly and accomplish chopping board top surface and bottom surface sanding and handle, whole process need not to turn over the operation to the chopping board, easy operation effectively improves sanding efficiency, is favorable to serialization production.

In another embodiment, in order to protect sanding treatment of the chopping board, the sanding treatment device further comprises a protective cover C306 arranged above the first transverse conveyor belt C301 and the second transverse conveyor belt C302, wherein chopping board input ports C307 and chopping board output ports C308 are respectively arranged at the lower ends of the left side wall and the right side wall of the protective cover C306, the chopping board input ports C307 are arranged above the first transverse conveyor belt C301 and on the left side of the first sanding roller 304, and the chopping board output ports 308 are arranged above the second transverse conveyor belt D302 and on the right side of the second sanding roller 305.

In another embodiment, the first sanding roller 304 is driven to rotate by a first sanding motor 309 located on the front side thereof; the second sanding roller 305 is driven to rotate by a second sanding motor 310 positioned at the front side of the second sanding roller, and the first sanding motor and the second sanding motor are both installed on the inner side wall at the front end of the protective cover.

In another embodiment, a pair of chopping board guiding roller sets 311 are disposed on the left side of the first sanding roller 304, the pair of chopping board guiding roller sets 311 are disposed on the front and rear sides of the first transverse conveyor belt 301, the chopping board guiding roller sets 311 include a plurality of conveying guide rollers 312 uniformly distributed along the transverse direction at intervals, and the conveying guide rollers are vertically disposed. By arranging a pair of chopping board guide roller sets, the conveying of chopping boards on the first transverse conveyor belt can be guided.

In another embodiment, a cutting board guiding assembly D313 is disposed above the right end of the first transverse conveyor 301 and the second sanding roller 302, the cutting board guiding assemblies D313 each include a plurality of guiding wheels C314 uniformly distributed along a transverse interval, the plurality of guiding wheels C314 are mounted on a guiding frame C315, the guiding frame C315 is driven by a lifting cylinder C316 vertically disposed above the guiding frame C315 to vertically lift, and the lifting cylinder C316 is mounted on the inner top surface of the protective cover C306. The guide wheels distributed along the transverse direction are used for conveying and guiding the chopping board when the second sanding roller is used for processing. The guide wheel is designed to be liftable so as to adjust the distance between the guide wheel and the second transverse conveyor belt and further adapt to the chopping boards with different thicknesses.

In another embodiment, the first and second matte rolls are the same length and are both greater than the longitudinal dimension of the chopping board.

If the utility model discloses or relates to components or structures fixedly connected with each other, then unless otherwise stated, the fixed connection is understood as: detachably fixed connection (e.g. using bolts or screws) can also be understood as: the non-detachable fixed connection (e.g. riveting, welding), of course, the mutual fixed connection may also be replaced by an integral structure (e.g. integrally formed using a casting process) (except for obviously being unable to use an integral forming process).

In addition, terms used in any of the above-described aspects of the present disclosure to express positional relationship or shape have meanings including a state or shape similar to, similar to or approaching thereto unless otherwise stated.

Any part provided by the utility model can be assembled by a plurality of independent components, or can be manufactured by an integral forming process.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same; while the utility model has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present utility model or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the utility model, it is intended to cover the scope of the utility model as claimed.

Claims (9)

1. The utility model provides a chopping board processing production line which characterized in that: comprises a chamfering device, a sand edge device, a branding device and a sanding device which are arranged in sequence along the transverse direction;

the chamfering device comprises a transverse conveyor belt A, a protective cover A with an open bottom is arranged above the transverse conveyor belt A, a first chamfering assembly and a second chamfering assembly are sequentially arranged in the protective cover A from left to right, the first chamfering assembly comprises a pair of first double-sided chamfering grinding wheels which are distributed on the front side and the rear side of the transverse conveyor belt A, the first double-sided chamfering grinding wheels are vertically arranged, and the pair of first double-sided chamfering grinding wheels are used for chamfering the side edges of the front end and the rear end of a chopping board respectively; the second chamfering assembly comprises a pair of vertically arranged second double-sided chamfering grinding wheels which are distributed at intervals left and right, and the pair of second double-sided chamfering grinding wheels are driven by the longitudinal moving mechanism A to move back and forth respectively so as to chamfer the side edges of the left end and the right end of the chopping board;

the sand edge device comprises a first transverse conveyor belt A and a second transverse conveyor belt B which are distributed in parallel along the transverse direction, wherein the left end of the first transverse conveyor belt A is connected with the right end of the transverse conveyor belt A, a sand edge yielding port is arranged between the first transverse conveyor belt A and the second transverse conveyor belt B, a first sand edge wheel which is driven by a longitudinal moving mechanism B to move forwards and backwards is arranged above the sand edge yielding port, and the first sand edge wheel is used for sequentially carrying out sand edges on the right side surface of a chopping board positioned at the right end of the first transverse conveyor belt A and the left side surface of a chopping board positioned at the left end of the second transverse conveyor belt B; a pair of second sand edge wheels are arranged above the right end of the second transverse conveyor belt B, and are distributed on the front side and the rear side of the second transverse conveyor belt B and used for sand edges on the front side and the rear side of the chopping board on the second transverse conveyor belt B;

the branding device comprises a transverse conveying belt B, the left end of the transverse conveying belt B is connected with the right end of a second transverse conveying belt B, a positioning push plate and a positioning backup plate which are distributed in a front-back opposite mode are arranged above the transverse conveying belt B, and the positioning push plate is driven by a first moving mechanism to move towards the positioning backup plate so as to push the chopping board to the rear side face to abut against the positioning backup plate; the positioning backup plate is provided with a branding relief hole which is longitudinally communicated, and a branding die which is driven by a second moving mechanism to longitudinally move is arranged in the branding relief hole;

the sanding device comprises a first transverse conveyor belt C and a second transverse conveyor belt D, wherein the left end of the first transverse conveyor belt C is connected with the left end of the transverse conveyor belt B, a first sanding roller for sanding the top surface of the chopping board is arranged above the first transverse conveyor belt C, and the first sanding roller is longitudinally arranged; and a second sanding roller for sanding the bottom surface of the chopping board is arranged between the first transverse conveyor belt C and the second transverse conveyor belt D.

2. The chopping board processing production line according to claim 1, wherein: the lower ends of the left side wall and the right side wall of the protective cover A are respectively provided with a chopping board input port A and a chopping board output port A; the pair of second double-sided chamfering grinding wheels are positioned above the pair of first double-sided chamfering grinding wheels, a lifting assembly for driving the chopping board to vertically lift is arranged between the pair of second double-sided chamfering grinding wheels, and the lifting assembly drives the chopping board on the transverse conveyor belt A to move upwards to correspond to the positions of the pair of second double-sided chamfering grinding wheels; the lifting assembly comprises a lifting plate which is horizontally arranged, the lifting plate is driven to lift by a first lifting cylinder which is vertically arranged above the lifting plate, and a plurality of adsorption nozzles for adsorbing the chopping board are distributed at the bottom of the lifting plate.

3. A chopping board processing line according to claim 2, characterized in that: the first double-sided chamfering grinding wheel and the second double-sided chamfering grinding wheel both comprise two truncated cones which are distributed vertically symmetrically, the middle parts of the two truncated cones are connected with vertical rotating shafts, and the vertical rotating shafts are driven to rotate by chamfering motors positioned above the vertical rotating shafts; the left side of first chamfer subassembly is equipped with chopping board guide assembly A, chopping board guide assembly A includes a plurality of leading wheel A along horizontal interval equipartition, and a plurality of leading wheel A is installed on leading truck A, leading truck A is driven along vertical lift by the second lift cylinder A of vertically locating its top.

4. The chopping board processing production line according to claim 1, wherein: the sand edge device further comprises a protective cover B arranged above the first transverse conveyor belt A and the second transverse conveyor belt B, a chopping board input port B and a chopping board output port B are respectively arranged at the lower ends of the left side wall and the right side wall of the protective cover B, the chopping board input port B is arranged above the first transverse conveyor belt, and the chopping board output port B is arranged above the second transverse conveyor belt B and is arranged on the right side of a pair of second sand edge wheels; the first sand edge wheels are driven to rotate by first sand edge motors vertically arranged above the first sand edge wheels, and each first sand edge wheel is driven to rotate by second sand edge motors vertically arranged above the first sand edge wheels; the longitudinal moving mechanism is a longitudinally arranged ball screw nut pair, and the ball screw nut pair is arranged on the inner top surface of the protective cover; the first sand edge motor is arranged at the bottom of the moving end of the ball screw nut pair.

5. The cutting board processing line according to claim 4, wherein: a first chopping board guide assembly B and a second chopping board guide assembly C are respectively arranged above the first transverse conveyor belt A and the second transverse conveyor belt B, the first chopping board guide assembly B is positioned at the left side of the first sand edge wheel, and the second chopping board guide assembly C is positioned at the left side of a pair of second sand edge wheels; the first chopping board guide assembly B and the second chopping board guide assembly C comprise a plurality of guide wheels B which are uniformly distributed along the transverse interval, the guide wheels B are arranged on a guide frame B, the guide frame B is vertically lifted by a lifting cylinder B vertically arranged above the guide frame B, and the lifting cylinder B is arranged on the inner top surface of a protective cover B.

6. The chopping board processing production line according to claim 1, wherein: the positioning push plate is in a horizontal L shape, the longitudinal edge of the positioning push plate is used for being in contact with the right side surface of the chopping board, the transverse edge of the positioning push plate is connected with a first moving mechanism, the first moving mechanism is a moving cylinder longitudinally arranged on the front side of the positioning push plate, and the tail end of a cylinder rod of the moving cylinder is connected with the middle part of the transverse edge of the positioning push plate so as to drive the positioning push plate to move longitudinally; the second moving mechanism comprises a branding driving cylinder longitudinally arranged at the rear side of the positioning backup plate, the position of the branding driving cylinder corresponds to the position of the branding abdicating hole, a cylinder rod of the branding driving cylinder extends towards the branding abdicating hole, the tail end of the branding driving cylinder is fixedly provided with a branding moving seat, and the branding die is arranged on the front side surface of the branding moving seat.

7. The cutting board processing line according to claim 6, wherein: the left side of the positioning backup plate is provided with a cleaning brush which is used for contacting with the rear side surface of the chopping board; a cleaning fan for blowing away dust on the rear side surface of the chopping board is arranged between the cleaning brush and the positioning backup board; and the right side of the positioning backup plate is provided with a cooling fan for blowing air to the rear side surface of the chopping board.

8. The chopping board processing production line according to claim 1, wherein: the sanding device further comprises a protective cover C arranged above the first transverse conveyor belt C and the second transverse conveyor belt D, wherein a chopping board input port C and a chopping board output port C are respectively arranged at the lower ends of the left side wall and the right side wall of the protective cover C, the chopping board input port C is arranged above the first transverse conveyor belt C, and the chopping board output port C is arranged above the second transverse conveyor belt D and is arranged on the right side of the second sanding roller; the first sanding roller is driven to rotate by a first sanding motor positioned at the front side of the first sanding roller; the second sanding roller is driven to rotate by a second sanding motor positioned at the front side of the second sanding roller, and the first sanding motor and the second sanding motor are both arranged on the inner side wall at the front end of the protective cover.

9. The cutting board processing line according to claim 8, wherein: the left side of the first sanding roller is provided with a pair of chopping board guide roller groups which are respectively arranged on the front side and the rear side of the first transverse conveyor belt C, each chopping board guide roller group comprises a plurality of conveying guide rollers which are uniformly distributed along the transverse direction at intervals, and each conveying guide roller is vertically arranged; the right-hand member of first horizontal conveyer belt C and the top of second sand smooth roller are equipped with chopping board direction subassembly D, chopping board direction subassembly D all includes a plurality of along the leading wheel D of horizontal interval equipartition, and a plurality of leading wheel D is installed on leading truck D, leading truck D is driven along vertical lift by the lift cylinder D of vertically locating its top, lift cylinder D installs the inside top surface at protection casing C.