CN112078032A - Equipment is piled up in cutting of response discernment panel - Google Patents

Abstract

The invention discloses induction recognition plate cutting and stacking equipment, which comprises a machine shell, wherein a processing cavity with an opening at the left end is arranged in the machine shell, two symmetrical driven cavities are arranged in the upper end wall and the lower end wall of the processing cavity, a moving cavity is arranged in one end wall of the driven cavity far away from the processing cavity, a cutting cavity communicated with the processing cavity is arranged in the right end wall of the driven cavity, a rotating cavity is arranged in the right end wall of the processing cavity at the lower side, a buffer groove communicated with the processing cavity is arranged in the rear end wall of the processing cavity, a control cavity is arranged in the front end wall of the storage cavity, cutting blades are arranged in the cutting cavities, the two cutting blades rotate and move upwards to cut the plate, rotatory chamber lower extreme wall is equipped with driving motor, driving motor can provide power, the buffer beam that is equipped with in the processing chamber, the buffer beam can cushion panel when panel rotates to fall down.

Description

Equipment is piled up in cutting of response discernment panel

Technical Field

The invention relates to the field of induction recognition, in particular to an induction recognition plate cutting and stacking device.

Background

The plate materials on the blank are stone materials cut by a stone large cutting machine, and all the plate materials are connected to the plate bottom. Most of the existing plates on the market are manually knocked by a hammer and then are manually opened, and then the opened plates are sequentially stacked together in a manual mode, so that the operation is inconvenient, time and labor are wasted, the working efficiency is very low, the plates are cut by a machine, and whether the plates reach a processing position or not is difficult to measure.

Disclosure of Invention

In order to solve the problems, the induction recognition plate cutting and stacking device is designed in the embodiment, the induction recognition plate cutting and stacking device comprises a shell, a machining cavity with an opening at the left end is arranged in the shell, two symmetrical driven cavities are arranged in the upper end wall and the lower end wall of the machining cavity, the driven cavities are far away from a moving cavity arranged in one end wall of the machining cavity, a cutting cavity communicated with the machining cavity is arranged in the right end wall of the driven cavity, the upper side of the cutting cavity is arranged in the right end wall of the machining cavity, an oil tank is arranged in the right end wall of the machining cavity, the lower side of the cutting cavity is provided with a rotating cavity, a storage cavity with an opening at the upper end is arranged in the lower end wall of the rotating cavity, a right end opening fetching cavity is arranged in the communicating cavity of the storage cavity right end wall, a buffer groove communicated with the machining cavity is, Remove the chamber be equipped with cutting mechanism between the cutting chamber, the oil tank the process chamber rotatory chamber and be equipped with drive mechanism between, the process chamber the control chamber and deposit and be equipped with pile up the mechanism between the chamber, cutting mechanism includes the cutting blade that the cutting intracavity was equipped with, two cutting blade rotates the upward movement and can cuts panel, drive mechanism includes driving motor that the terminal wall was equipped with under the rotatory chamber, driving motor can provide power, pile up the mechanism and include the buffer beam that is equipped with in the process chamber, the buffer beam can cushion panel when panel rotates and falls down.

Preferably, the transmission mechanism comprises a driving shaft in power connection with the driving motor, an incomplete gear is arranged at the upper end of the driving shaft, a transmission shaft is rotatably connected to the lower end wall, a transmission wheel meshed with the incomplete gear is fixedly connected to the upper end of the transmission shaft, a driving pulley is fixedly connected to the lower end of the transmission shaft, a rotating shaft with the upper end positioned in the processing cavity is rotatably connected to the lower end wall of the rotating cavity, a torsion spring is connected to the lower end of the rotating shaft and the lower end wall of the rotating cavity, a driven pulley is fixedly connected to the lower end of the rotating shaft, a transmission belt for connecting the driven pulley and the driving pulley is arranged on the casing, a driven shaft is rotatably connected to the lower end wall, a driven wheel meshed with the incomplete gear is fixedly connected to the, the front end wall is rotatably connected with a transmission shaft, the rear end of the transmission shaft is fixedly connected with a transmission bevel gear meshed with the transmission bevel gear, the front end of the transmission shaft is fixedly connected with a transmission belt wheel, the front end wall of the control cavity is rotatably connected with a rotating shaft, the front end of the rotating shaft is positioned in the storage cavity, the front end of the rotating shaft is fixedly connected with a rotating belt wheel, a transmission belt connected between the rotating belt wheel and the transmission belt wheel is arranged in the casing, the rear end of the rotating shaft is fixedly connected with a rotating wheel, a reversing valve is arranged in the casing, and a hydraulic pump is arranged at the communication position of the.

Preferably, the cutting mechanism includes remove intracavity sliding connection's movable plate, the movable plate fixedly connected with other end is located the carriage release lever in the driven chamber, remove the chamber with the switching-over valve intercommunication is equipped with the connecting tube, the carriage release lever fixedly connected with is located the cutting motor of driven intracavity, cutting motor power is connected with the right-hand member and is located the cutting axle of cutting intracavity, the epaxial fixedly connected with fixed sleeve of cutting, fixed sleeve can fix the cutting axle, cutting axle right-hand member fixedly connected with cutting blade.

Preferably, the stacking mechanism comprises a rotating block fixedly connected with the upper end of the rotating shaft, a translation cavity is arranged at the left end of the rotating block, a translation plate is connected in the translation cavity in a sliding manner, a translation rod with the left end positioned in the processing cavity is fixedly connected with the left end surface of the translation plate, a sucker is fixedly connected with the left end of the translation rod, an adsorption cavity is arranged in the sucker, an adsorption plate is connected in the adsorption cavity in a sliding manner, two adsorption springs are arranged on the right end surface of the adsorption plate and connected with the adsorption cavity, a sensor with the left end positioned outside is arranged in the left end wall of the sucker, a selection valve is arranged in the rotating block, a middle pipeline is arranged between the selection valve and the adsorption cavity in a communication manner, a connection cavity is arranged between the selection valve and the translation cavity body suit, a communication pipeline is arranged between the selection valve and the reversing valve, the buffer rod rear side lower end face with buffer slot right-hand member wall connection is equipped with buffer spring, it is equipped with and places the board to deposit the chamber hiccup, place the board lower end face in it is equipped with two and deposits the spring to deposit chamber lower end wall connection.

Preferably, when the sucking disc is clung to the surface of the raw material, the board can be sucked by the rightward movement of the adsorption plate, a steep slope capable of transporting the raw material is arranged on the left side of the shell, the elasticity of the storage spring can be adjusted, so that the thickness of the cut board can be compressed without bearing the cut board, the incomplete gear is a half toothed gear, and the sensor contacts the raw material to start the device.

The invention has the beneficial effects that: the invention realizes the problem of difficult cutting caused by overlarge cutting blade required during cutting by arranging the two vertically symmetrical cutting blades, and the invention is also provided with the sensor which can sense the plate, so that the plate can be started to be processed when entering, and the invention is also provided with the mechanism which stacks the plate after the plate is cut off, thereby facilitating subsequent processing.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the overall structure of an induction recognition plate cutting and stacking device according to the present invention;

FIG. 2 is a schematic structural diagram at A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged view of the structure at C in FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to induction recognition plate cutting and stacking equipment which comprises a machine shell 10, wherein a machining cavity 14 with an opening at the left end is arranged in the machine shell 10, two symmetrical driven cavities 15 are arranged in the upper end wall and the lower end wall of the machining cavity 14, a moving cavity 11 is arranged in one end wall of the driven cavity 15 far away from the machining cavity 14, a cutting cavity 17 communicated with the machining cavity 14 is arranged in the right end wall of the driven cavity 15, an oil tank 19 is arranged in the right end wall of the machining cavity 14 at the upper side, a rotating cavity 36 is arranged in the right end wall of the machining cavity 14 at the lower side, a storage cavity 31 with an opening at the upper end is arranged in the lower end wall of the rotating cavity 36, an object taking cavity 30 with an opening at the right side is communicated with the right end wall of the storage cavity 31, a buffer groove 26 communicated with the machining cavity 14 is arranged in the rear end wall of the machining cavity 14, remove the chamber 11 be equipped with cutting mechanism 75 between the cutting chamber 17, the oil tank 19 the processing chamber 14 rotatory chamber 36 and be equipped with drive mechanism 76 between 51, the processing chamber 14 control chamber 49 and deposit and be equipped with pile mechanism 77 between the chamber 31, cutting mechanism 75 includes the cutting blade 37 that is equipped with in the cutting chamber 17, two cutting blade 37 rotates the upward movement and can cuts panel, drive mechanism 76 includes driving motor 46 that the terminal wall was equipped with under rotatory chamber 36, driving motor 46 can provide power, pile mechanism 77 includes buffer beam 24 that is equipped with in the processing chamber 14, buffer beam 24 can rotate at panel and cushion panel when falling down.

Advantageously, the transmission mechanism 76 comprises a driving shaft 45 in power connection with the driving motor 46, an incomplete gear 42 provided at an upper end of the driving shaft 45, a transmission shaft 41 rotatably connected to a lower end wall of the rotating chamber 51, a transmission wheel 40 engaged with the incomplete gear 42 fixedly connected to an upper end of the transmission shaft 41, a driving pulley 47 fixedly connected to a lower end of the transmission shaft 41, a rotating shaft 35 having an upper end located in the processing chamber 14 rotatably connected to a lower end wall of the rotating chamber 36, a torsion spring 34 provided at a lower end of the rotating shaft 35 and connected to a lower end wall of the rotating chamber 36, a driven pulley 33 fixedly connected to a lower end of the rotating shaft 35, a transmission belt 39 connecting the driven pulley 33 and the driving pulley 47 provided on the casing 10, a driven shaft 44 rotatably connected to a lower end wall of the rotating chamber 51, and a driven pulley 43 engaged, the lower end of the driven shaft 44 is fixedly connected with a transmission bevel gear 52, the front end wall of the driven shaft 51 is rotatably connected with a transmission shaft 54, the rear end of the transmission shaft 54 is fixedly connected with a transmission bevel gear 55 meshed with the transmission bevel gear 52, the front end of the transmission shaft 54 is fixedly connected with a transmission belt wheel 53, the front end wall of the control cavity 49 is rotatably connected with a rotating shaft 28, the front end of the rotating shaft 28 is positioned in the storage cavity 31, the front end of the rotating shaft 28 is fixedly connected with a rotating belt wheel 48, a transmission belt 50 connected between the rotating belt wheel 48 and the transmission belt wheel 53 is arranged in the machine shell 10, the rear end of the rotating shaft 28 is fixedly connected with a rotating wheel 29, a reversing valve 23 is arranged in the machine shell 10, and.

Advantageously, the cutting mechanism 75 comprises a moving plate 18 slidably connected in the moving cavity 11, the moving plate 18 is fixedly connected with a moving rod 12, the other end of the moving rod 12 is located in the driven cavity 15, the moving cavity 11 is communicated with the reversing valve 23, a connecting pipeline 21 is arranged, the moving rod 12 is fixedly connected with a cutting motor 13 located in the driven cavity 15, the cutting motor 13 is in power connection with a cutting shaft 38, the right end of the cutting shaft 38 is located in the cutting cavity 17, a fixed sleeve 16 is fixedly connected to the cutting shaft 38, the fixed sleeve 16 can fix the cutting shaft 38, and the right end of the cutting shaft 38 is fixedly connected with the cutting blade 37.

Beneficially, the stacking mechanism 77 includes a rotating block 63 fixedly connected to the upper end of the rotating shaft 35, a translation cavity 64 is provided at the left end of the rotating block 63, a translation plate 62 is slidably connected in the translation cavity 64, a translation rod 60 with the left end located in the processing cavity 14 is fixedly connected to the left end surface of the translation plate 62, a suction cup 59 is fixedly connected to the left end of the translation rod 60, a suction cavity 57 is provided in the suction cup 59, a suction plate 56 is slidably connected in the suction cavity 57, two suction springs 58 are connected to the right end surface of the suction plate 56 and the suction cavity 57, a sensor 68 with the left end located outside is provided in the left end wall of the suction cup 59, a selector valve 66 is provided in the rotating block 63, the selector valve 66 is provided with a middle pipeline 61 in communication with the suction cavity 57, the selector valve 66 is provided with a connecting cavity 67 in communication with the translation cavity 64, the selector valve 66 is provided with a communication pipeline 22 in communication with the reversing valve, the buffer slot 26 is internally and slidably connected with the buffer rod 24, the lower end face of the rear side of the buffer rod 24 is connected with the wall of the right end of the buffer slot 26 and is provided with a buffer spring 25, the storage cavity 31 is provided with a placing plate 27 in a hiccup manner, and the lower end face of the placing plate 27 is connected with the lower end wall of the storage cavity 31 and is provided with two storage springs 32.

Advantageously, when the suction cup 59 is pressed against the surface of the raw material, the suction plate 56 moves to the right to suck the sheet material, the left side of the casing 10 is provided with a steep slope for transporting the raw material, the storage spring 32 is adjustable in elasticity so that a cut sheet material is not taken, the thickness of the cut sheet material is compressed, the incomplete gear 42 is a half-toothed gear, and the sensor 68 is activated when contacting the raw material.

The use steps herein are described in detail below with reference to fig. 1-4: in the initial state, the buffer rod 24 is located at the highest position, the two cutting blades 37 are furthest apart, the incomplete gear 42 is just meshed with the transmission wheel 40, the suction cup 59 is located at the leftmost side, the translation plate 62 is located at the leftmost side, the torsion spring 34 is in a relaxed state, the storage spring 32 is in a relaxed state, the buffer spring 25 is in a relaxed state, and the oil tank 19 and a cavity which can be communicated with the oil tank 19 are filled with hydraulic oil.

When the plate is cut, the raw material is pushed into the processing cavity 14 through the left slope of the housing 10 to contact the sensor 68, at this time, the reversing valve 23 is started to enable the oil tank 19 to be communicated with the selector valve 66, the selector valve 66 is started to be communicated with the adsorption cavity 57, then the hydraulic pump 20 is started to suck hydraulic oil, so that the die adsorption plate 56 moves rightwards and compresses the adsorption spring 58, thereby fixing the right end face of the plate on the suction cup 59, the reversing valve 23 is started to enable the oil tank 19 to be communicated with the moving cavity 11, at this time, the hydraulic pump 20 is started to output hydraulic oil, thereby pushing the moving plate 18, the moving rod 12 and the cutting motor 13 to move relatively, thereby driving the cutting shaft 38 and the fixed sleeve 16 to move relatively, thereby driving the two cutting blades 37 to move relatively, and at the same time, the cutting motor 13 is started to output power, thereby driving the, thereby cutting the raw material; after the cutting is completed, the hydraulic pump 20 is started to suck hydraulic oil, so as to drive the two cutting blades 37 to return to the initial position, at this time, the reversing valve 23 is started to be communicated with the selector valve 66, the selector valve 66 is started to be communicated with the translation cavity 64, the hydraulic pump 20 is started to suck hydraulic oil, so as to drive the translation plate 62, the translation rod 60, the suction cup 59 and the cut plate to move rightwards, the hydraulic pump 20 is closed, the driving motor 46 is started to rotate to output power, so as to drive the driving shaft 45 to brake one turn, so as to drive the incomplete gear 42 to rotate one turn, the incomplete gear 42 rotates the first half turn to drive the driving wheel 40 to rotate one half turn, so as to drive the driving shaft 41 to rotate one half turn, so as to drive the driving belt wheel 47 to rotate one half turn, so as to drive the driven belt wheel 33 to rotate one, the cut plates are driven to rotate for half a circle, then the hydraulic pump 20 is started to discharge hydraulic oil, so that the translation plate 62, the translation rod 60, the suction disc 59 and the cut plates are driven to move rightwards, the cut plates are placed on the upper end face of the rotating wheel 29, then the selection valve 66 is started to be communicated with the suction cavity 57, and the hydraulic pump 20 discharges the hydraulic oil to enable the suction plate 56 to return to the initial position, so that the cut plates are not fixed any more; the incomplete gear 42 continues to rotate for half a turn, thereby driving the driven wheel 43 to rotate for half a turn, thereby driving the driven shaft 44 to rotate for half a turn, thereby driving the transmission bevel gear 52 to rotate for half a turn, thereby driving the transmission bevel gear 55 to rotate for half a turn, thereby driving the transmission shaft 54 to rotate for half a turn, thereby driving the transmission pulley 53 to rotate for half a turn, thereby driving the rotating pulley 48 to rotate for half a turn through the transmission belt 50, thereby driving the rotating shaft 28 to rotate for half a turn, thereby driving the rotating wheel 29 to rotate for half a turn, thereby driving the cut sheet to fall down to the right and fall through the buffer of the buffer rod 24 onto the upper end surface of the placing plate 27, thereby driving the placing plate 27 to move downward and compress the storage spring 32, so that the upper end surface of the cut sheet is flush with the upper end surface of the placing plate 27 at the original position, and simultaneously the rotating shaft 35 and the suction cup 59 return, the above-described movement is repeated to complete the cutting and stacking of all the sheets, and if the cut sheets are to be taken out, they can be taken out from the taking chamber 30.

The invention has the beneficial effects that: the invention realizes the problem of difficult cutting caused by overlarge cutting blade required during cutting by arranging the two vertically symmetrical cutting blades, and the invention is also provided with the sensor which can sense the plate, so that the plate can be started to be processed when entering, and the invention is also provided with the mechanism which stacks the plate after the plate is cut off, thereby facilitating subsequent processing.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an equipment is piled up in cutting of response discernment panel, includes the casing, its characterized in that: a left end open-ended processing cavity is arranged in the machine shell, two symmetrical driven cavities are arranged in the upper end wall and the lower end wall of the processing cavity, the driven cavity is far away from a moving cavity arranged in one end wall of the processing cavity, a cutting cavity communicated with the processing cavity is arranged in the right end wall of the driven cavity, an oil tank is arranged in the upper end wall of the processing cavity, a rotating cavity is arranged in the lower end wall of the processing cavity, an upper end open storage cavity is arranged in the lower end wall of the rotating cavity, a right side open fetching cavity is communicated with the right end wall of the storage cavity, a buffer groove communicated with the processing cavity is arranged in the rear end wall of the processing cavity, a control cavity is arranged in the front end wall of the storage cavity, a cutting mechanism is arranged among the driven cavity, the processing cavity, the moving cavity and the cutting cavity, and a transmission mechanism is arranged among the, the working chamber the control chamber and deposit and be equipped with stacking mechanism between the chamber, cutting mechanism includes the cutting blade that is equipped with in the cutting chamber, two cutting blade rotates the upward movement and can cut panel, drive mechanism includes driving motor that the terminal wall was equipped with under the rotatory chamber, driving motor can provide power, stacking mechanism includes the buffer beam that is equipped with in the working chamber, the buffer beam can be when panel rotates and falls down cushions panel.

2. An induction recognition sheet cutting and stacking apparatus as recited in claim 1, wherein: the transmission mechanism comprises a driving shaft in power connection with the driving motor, an incomplete gear is arranged at the upper end of the driving shaft, a transmission shaft is rotatably connected to the lower end wall, a transmission wheel meshed with the incomplete gear is fixedly connected to the upper end of the transmission shaft, a driving belt wheel is fixedly connected to the lower end of the transmission shaft, a rotating shaft with the upper end positioned in the processing cavity is rotatably connected to the lower end wall of the rotating cavity, a torsion spring is connected to the lower end of the rotating shaft and the lower end wall of the rotating cavity, a driven belt wheel is fixedly connected to the lower end of the rotating shaft, a transmission belt for connecting the driven belt wheel and the driving belt wheel is arranged on the machine shell, a driven shaft is rotatably connected to the lower end wall, a driven wheel meshed with the incomplete gear is fixedly connected to the upper, the rear end of the transmission shaft is fixedly connected with a transmission bevel gear meshed with the transmission bevel gear, the front end of the transmission shaft is fixedly connected with a transmission belt wheel, the front end wall of the control cavity is rotatably connected with a rotating shaft, the front end of the rotating shaft is positioned in the storage cavity, the front end of the rotating shaft is fixedly connected with a rotating belt wheel, a transmission belt arranged between the rotating belt wheel and the transmission belt wheel is arranged in the casing, the rear end of the rotating shaft is fixedly connected with a rotating wheel, a reversing valve is arranged in the casing, and a hydraulic pump is arranged at the communication position of the reversing valve and the.

3. An induction recognition sheet cutting and stacking apparatus as recited in claim 2, wherein: cutting mechanism includes remove intracavity sliding connection's movable plate, the movable plate fixedly connected with other end is located the carriage release lever in the driven chamber, remove the chamber with the switching-over valve intercommunication is equipped with the connecting tube, carriage release lever fixedly connected with is located the cutting motor of driven intracavity, cutting motor power is connected with the right-hand member and is located the cutting axle of cutting intracavity, the epaxial fixedly connected with fixed sleeve of cutting, fixed sleeve can be fixed the cutting axle, cutting axle right-hand member fixedly connected with cutting blade.

4. An induction recognition sheet cutting and stacking apparatus as recited in claim 1, wherein: the stacking mechanism comprises a rotating block fixedly connected with the upper end of the rotating shaft, the left end of the rotating block is provided with a translation cavity, the translation cavity is internally and slidably connected with a translation plate, the left end surface of the translation plate is fixedly connected with a translation rod of which the left end is positioned in the processing cavity, the left end of the translation rod is fixedly connected with a sucker, an adsorption cavity is arranged in the sucker, the adsorption cavity is internally and slidably connected with an adsorption plate, the right end surface of the adsorption plate is connected with the adsorption cavity and is provided with two adsorption springs, the left end wall of the sucker is internally provided with a sensor of which the left end is positioned outside, the rotating block is internally provided with a selector valve, the selector valve is communicated with the adsorption cavity and is provided with a middle pipeline, the selector valve is communicated with the translation cavity and is provided with a connecting cavity, the selector valve is communicated with a reversing valve and is provided with a communicating pipeline, the buffer rod is slidably connected in the, deposit the chamber hiccup and be equipped with and place the board, place the board lower extreme in deposit chamber lower extreme end wall connection and be equipped with two and deposit the spring.

5. An induction recognition sheet cutting and stacking apparatus as recited in claim 4, wherein: when raw and other materials surface is hugged closely to the sucking disc, the adsorption plate moves right and can be withheld panel, the casing left side is equipped with the abrupt slope that can go up raw and other materials transportation, deposit the adjustable elasticity of spring for do not undertake a thickness that the panel that cuts can compress a good panel promptly, incomplete gear is half toothed gear, and inductor contact raw and other materials can starting drive.

Images