CN112299027B - Metal disc production and processing separating mechanism - Google Patents

Abstract

The invention discloses a metal disc production and processing separating mechanism which comprises an adjusting and controlling device, metal discs, guide rings, baffle separating devices, a fixing plate and mounting and fixing holes, wherein the mounting and fixing holes uniformly penetrate through one end of the fixing plate, a discharge chute is formed in the fixing plate in a penetrating manner, the adjusting and controlling device is rotatably mounted at the upper end of the fixing plate and distributed on the periphery of the discharge chute, the baffle separating devices are uniformly and fixedly mounted on the adjusting and controlling device, the number of the baffle separating devices is four, the baffle rings are fixedly mounted on the upper end face of the fixing plate, the guide rings are fixedly mounted at the upper ends of the baffle rings, and the metal discs are stacked inside the baffle rings. In the using process of the invention, the metal discs stacked together can be separated one by controlling the expansion and contraction of the expansion rod through the cylinder, and the separation speed of the metal discs can be controlled by controlling the expansion and contraction frequency of the expansion rod.

Description

Metal disc production and processing separating mechanism

Technical Field

The invention relates to the technical field of metal disc separation, in particular to a metal disc production and processing separation mechanism.

Background

The metal disc needs to be carried the metal disc that piles together at the in-process of production and processing, because metal disc piles together to make and need one to separate the metal disc at the in-process of carrying the metal disc, waste time and energy and great influence the transport efficiency of metal disc, consequently need a device to solve above-mentioned problem, make and carry out a quick separation when can carrying the metal disc that piles together through this device.

Disclosure of Invention

The invention aims to provide a metal disc production and processing separation mechanism to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a metal disc production and processing separating mechanism, includes regulation and control device, metal disc, guide ring, separates to keep off the ring, separates to keep off separator, fixed plate and installation fixed orifices, the installation fixed orifices evenly runs through the one end of seting up at the fixed plate, run through on the fixed plate and seted up the blowpit, the upper end of fixed plate is rotated and is installed regulation and control device, just regulation and control device distributes around the blowpit, separate the even fixed mounting of fender separator on regulation and control device, just it is equipped with four to separate to keep off separator, separate the up end of fender ring fixed mounting at the fixed plate, guide ring fixed mounting is in the upper end that separates the fender ring, metal disc piles up and places the inside at separating the fender ring.

Preferably, install first support in the regulation and control device and separate the baffle, the equal fixedly connected with connecting plate in first support separates the outer terminal surface middle part of baffle, just first support separates baffle and connecting plate and all is equipped with four and be the rectangle distribution, first support separates the baffle and rotates to run through the grafting with the junction of connecting plate and has rotated the trip shaft, just it rotates the inside of pegging graft at the fixed plate to rotate the trip shaft, first support separates on the baffle and is located one side of rotating the trip shaft and runs through set up threaded hole, the front end of connecting plate and first support separate to rotate to peg graft between the end of baffle and have first rotation connecting axle, just rotate through first rotation connecting axle between the end of first support separates the baffle and the end of adjacent connecting plate and install the connection driving plate, be located connecting axle one side connect driving plate outer terminal surface middle part fixedly connected with fixed control board, the front end middle part of fixed control board rotates to peg graft and has the second to rotate, the front end of fixed control board rotates through the second and is connected with the telescopic link, the end fixedly connected with cylinder of telescopic link.

Preferably, a fixed adjusting frame is installed in the separating device for the separating barriers, a sliding adjusting clamping groove is formed in the middle of the fixed adjusting frame in a penetrating mode, a sliding clamping plate is connected to the inside of the sliding adjusting clamping groove in a sliding clamping mode, fastening slots are formed in the front end of the fixed adjusting frame in a bilateral symmetry mode, the sliding clamping plate is connected to the inside of the fastening slots in a sliding clamping mode in a bilateral symmetry mode, fastening knobs are connected to the sliding clamping plate in an inserting mode through bilateral symmetry threads, the front end of each fastening knob is connected to the inside of the fastening slot in an inserting mode, a second supporting separating barrier is fixedly connected to the middle of the front end face of the sliding clamping plate, fastening threaded holes are formed in one end of the fixed adjusting frame in a penetrating mode, and fastening threaded columns are connected to the fastening threaded holes in an inserting mode.

Preferably, the front ends of the second supporting baffle and the first supporting baffle are both arc-shaped, and the front ends of the second supporting baffle and the first supporting baffle are arranged in a smooth manner.

Preferably, the guide ring is arranged in a conical shape, the diameter of the discharge chute is larger than that of the metal disc, and the bottom end of the fastening threaded column is inserted in the threaded hole in a threaded manner.

Preferably, the barrier separating apparatus is installed in a gap between barrier rings.

Compared with the prior art, the invention has the following beneficial effects:

the device controls the forward and reverse rotation of a first supporting baffle and a connecting plate in the adjusting control device by utilizing a telescopic rod and a fixed control plate through the expansion and contraction of an air cylinder in the using process, the first supporting baffle and the connecting plate can enable the front ends of the first supporting baffle, the front section and the second supporting baffle to regularly rotate to the upper part of a discharge chute in the forward and reverse rotation process, because a gap exists between the first supporting baffle and the second supporting baffle, the stacked metal disc can be supported and placed above the discharge chute by the front end of the first supporting baffle, when the first supporting baffle rotates and separates from the upper part of the discharge chute, the second supporting baffle rotates and is inserted between the gaps of the metal discs, so that the penultimate metal disc is supported and separated from the bottommost metal disc, because the bottommost metal disc does not have a first supporting baffle supporting clamping groove, the diameter of the discharge chute is larger than that of the metal discs, therefore, the metal disc located at the bottom can be supported and separated from the bottommost metal disc by a sliding adjusting knob which can accurately control the extrusion force of the sliding and the sliding adjusting knob which can regularly rotate and control the metal disc to vertically and vertically separate the discharging chute by the sliding knob, and the sliding knob which can accurately control the metal disc which can be stacked metal disc and the sliding adjusting knob which can be stacked metal disc which is positioned above the discharging chute and can be fastened together by the sliding knob and fastened together by the sliding knob, thereby can support to separate the interval that baffle and first support between the baffle to the second and carry out quick regulation, make first support separate baffle and second support and separate the baffle and can realize supporting the front end that separates the baffle with the second at the in-process of positive and negative rotation and accurately rotate and peg graft in the clearance between the metal disc, the second supports and separates the baffle and the front end that first support separates the baffle and all be circular-arc setting, make first support separate baffle and second support separate the baffle and rotate to certain distance and just can not separate the fender to the blowpit, just the second supports and separates the baffle and the front end that first support separates the baffle and be slick and sly setting, makes first support separate baffle and second support and separate the baffle and can be in the smooth clearance of inserting between the metal disc, great reduction frictional force.

Drawings

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

FIG. 2 is a schematic structural diagram of an upper end surface of a fixing plate according to the present invention;

FIG. 3 is a schematic structural diagram of a regulating control device according to the present invention;

fig. 4 is a schematic structural diagram of the blocking and separating device of the present invention.

In the figure: 1-an adjusting control device, 2-a metal disc, 3-a guide ring, 4-a baffle ring, 5-a baffle separating device, 6-a fixing plate, 7-a mounting fixing hole, 8-a discharging groove, 9-a threaded hole, 10-a first supporting baffle, 11-a first rotating connecting shaft, 12-a connecting transmission plate, 13-a rotating clamping shaft, 14-a connecting plate, 15-a fixed control plate, 16-a second rotating connecting shaft, 17-a telescopic rod, 18-an air cylinder, 19-a sliding clamping plate, 20-a fastening slot, 21-a sliding adjusting clamping groove, 22-a fastening threaded column, 23-a fastening threaded hole, 24-a fixed adjusting frame, 25-a fastening knob and 26-a second supporting baffle.

Detailed Description

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

Referring to fig. 1-4, an embodiment of the present invention is shown: the utility model provides a metal disc production and processing separating mechanism, including adjusting control device 1, metal disc 2, the guide ring 3, separate fender ring 4, separate fender separator 5, fixed plate 6 and installation fixed orifices 7, installation fixed orifices 7 evenly run through the one end of seting up at fixed plate 6, run through on the fixed plate 6 and seted up blowpit 8, adjusting control device 1 is installed in the upper end rotation of fixed plate 6, and adjusting control device 1 distributes around blowpit 8, separate 5 even fixed mounting of fender separator on adjusting control device 1, and separate and keep off separator 5 and be equipped with four, separate 4 fixed mounting at the up end of fixed plate 6 of fender ring, 3 fixed mounting of guide ring separates the upper end of fender ring 4, metal disc 2 piles up and places at the inside that separates fender ring 4.

The adjusting control device 1 is provided with a first supporting baffle plate 10, the middle part of the outer end surface of the first supporting baffle plate 10 is fixedly connected with a connecting plate 14, the first supporting baffle plate 10 and the connecting plate 14 are respectively provided with four parts and are distributed in a rectangular shape, a rotating clamping shaft 13 is rotatably inserted and inserted at the joint of the first supporting baffle plate 10 and the connecting plate 14, the rotating clamping shaft 13 is rotatably inserted and inserted inside a fixed plate 6, one side of the rotating clamping shaft 13 on the first supporting baffle plate 10 is provided with a threaded hole 9 in a penetrating manner, a first rotating connecting shaft 11 is rotatably inserted and inserted between the front end of the connecting plate 14 and the tail end of the first supporting baffle plate 10, a connecting transmission plate 12 is rotatably installed between the tail end of the first supporting baffle plate 10 and the tail end of an adjacent connecting plate 14 through a first rotating connecting shaft 11, the middle part of the outer end surface of the connecting transmission plate 12 on one side is fixedly connected with a fixed control plate 15, the middle part of the front end of the fixed control plate 15 is rotatably inserted and inserted with a second rotating connecting shaft 16, the front end of the sliding clamping frame 19 provided with a sliding clamping slot 20, the sliding clamping frame 20 of the adjusting block 5, the adjusting device is provided with a sliding clamping frame 19, two sliding clamping slot of the adjusting knob, two sliding clamping knob fastening knob of the sliding clamping plate 19 is symmetrically inserted and a sliding button 21 is symmetrically inserted and fastened in the sliding slot of the sliding clamping frame 19, the inner thread of the fastening screw hole 23 is inserted with a fastening screw column 22, the front ends of the second supporting baffle 26 and the first supporting baffle 10 are both arranged in an arc shape, the front ends of the second supporting baffle 26 and the first supporting baffle 10 are arranged in a smooth shape, the guide ring 3 is arranged in a tapered shape, the diameter of the discharge chute 8 is larger than that of the metal disc 2, the bottom end thread of the fastening screw column 22 is inserted in the threaded hole 9, the baffle separating device 5 is arranged in a gap between the baffle rings 4, the telescopic rod 17 and the fixed control plate 15 are used for controlling the forward and reverse rotation of the first supporting baffle 10 and the connecting plate 14 in the adjusting and controlling device 1 through the expansion and contraction of the air cylinder 18, the first supporting baffle 10 and the connecting plate 14 can enable the front end of the first supporting baffle 10 and the front section and the front end of the second supporting baffle 26 to rotate to the upper side of the discharge chute 8 in a forward and backward direction through the expansion and contraction of the air cylinder 18, the first supporting baffle 10 and the second supporting baffle 26 have a gap between the second supporting disk 26, therefore, when the discharging baffle 2 and the discharging chute 8 is placed on the metal disc 2 and the discharging chute 8, the discharging chute 2 can be separated from the discharging chute 8, the discharging chute 2, the discharging baffle 2 can be placed on the discharging chute 2, and the discharging chute 8 can be separated by the discharging chute 2, and the discharging chute 2 can be separated by the discharging device can be separated by the discharging chute 2, and the discharging device can be separated by the discharging chute 2, and the discharging device can be separated by the discharging device when the discharging chute 2, the discharging device can be separated by the discharging device can be placed on the discharging device when the discharging chute 2, therefore, when the first supporting separation baffle plate 10 and the second supporting separation baffle plate 26 rotate regularly in the forward and reverse directions and pass through the upper part of the discharge chute 8, the stacked metal discs 2 can be separated regularly, the stacked metal discs 2 can be separated and conveyed quickly and accurately, the second supporting separation baffle plate 26 and the sliding clamping plate 19 can slide up and down in the sliding adjusting clamping groove 21 and the fastening slot 20 by controlling the extrusion force and the friction force between the fastening knob 25 and the fastening slot 20 through screwing the fastening knob 25 according to the size of the gap between the metal discs 2, so that the distance between the second supporting separation baffle plate 26 and the first supporting separation baffle plate 10 can be adjusted quickly, the front ends of the first supporting separation baffle plate 10 and the second supporting separation baffle plate 26 can be accurately rotated and inserted into the gap between the metal discs 2 in the forward and reverse rotation process, the front ends of the second supporting separation baffle plate 26 and the first supporting separation baffle plate 10 are both arranged in an arc shape, the first supporting separation baffle plate 10 and the second supporting separation baffle plate 26 can be inserted into the gap between the metal discs 2 and the first supporting separation baffle plate 26, and the second supporting separation baffle plate 26 can not be inserted into the discharge chute 8, and the first supporting separation baffle plate 10, and the second supporting separation baffle plate can be inserted into the discharge chute.

The working principle is as follows: the device is fixedly installed through the installation fixing hole 7, so that the discharging groove 8 is positioned right above other conveying devices after installation, the guide ring 3 is arranged in a conical shape, the metal disc 2 placed in the baffle ring 4 can be guided, the metal disc 2 can rapidly enter the baffle ring 4 through the guide ring 3 to be stacked, the telescopic rod 17 and the fixed control plate 15 are utilized to control the forward and reverse rotation of the first supporting baffle plate 10 and the connecting plate 14 in the adjusting and controlling device 1 through the expansion of the air cylinder 18, the first supporting baffle plate 10 and the connecting plate 14 can enable the front ends of the first supporting baffle plate 10, the front section and the second supporting baffle plate 26 to regularly rotate to the upper side of the discharging groove 8 in the forward and reverse rotation process, and a gap exists between the first supporting baffle plate 10 and the second supporting baffle plate 26, so that the stacked metal disc 2 can be supported and placed above the discharging groove 8 through the front end of the first supporting baffle plate 10, when the first supporting separation baffle plate 10 rotates and separates from the upper part of the discharge chute 8 in the rotating process, the second supporting separation baffle plate 26 rotates and is inserted between the gaps of the metal circular disks 2, so that the penultimate metal circular disk 2 is supported and separated from the bottommost metal circular disk 2, because the bottommost metal circular disk 2 is not supported by the first supporting separation baffle plate 10, and the diameter of the discharge chute 8 is larger than that of the metal circular disks 2, the metal circular disk 2 positioned at the bottommost part can fall onto a specified conveying device from the inner part of the discharge chute 8, and therefore, the first supporting separation baffle plate 10 and the second supporting separation baffle plate 26 regularly rotate forwards and reversely, and when the metal circular disks 2 stacked together pass through the upper part of the discharge chute 8, the metal circular disks 2 can be regularly separated one by one The utility model discloses a quick accurate separation transport of metal disc 2, realize carrying out quick accurate separation transport with piling together metal disc 2, thereby can adjust second support baffle 26 and slip cardboard 19 and carry out the slip from top to bottom in slip regulation draw-in groove 21 and fastening slot 20 through twisting extrusion force and the frictional force between fastening knob 25 control fastening knob 25 and the fastening slot 20 according to the clearance size between the metal disc 2, thereby can support the interval between baffle 26 and the first support baffle 10 to carry out quick regulation, make first support baffle 10 and second support baffle 26 can realize rotating the accurate rotation of the front end of second support baffle 26 and peg graft in the clearance between metal disc 2 in the in-process of just reversing, the front end of second support baffle 26 and first support baffle 10 all is circular-arc setting, make first support baffle 10 and second support baffle 26 just can not separate the blowoff groove 8 at the certain distance of rotating, and second support baffle 26 and the front end of first support baffle 10 are the rounding off setting, make first support baffle 10 and second support baffle 26 can reduce the telescopic link that the clearance that the metal disc 2 of the telescopic link that the telescopic rod that the telescopic device of controlling that the clearance 2 can be used through inserting, and the telescopic rod 17 that the telescopic link can carry out the control is used together.

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

Claims (1)

1. The utility model provides a metal disc production and processing separating mechanism, includes regulation and control device (1), metal disc (2), guide ring (3), separates and keeps off ring (4), separates and keeps off separator (5), fixed plate (6) and installation fixed orifices (7), its characterized in that: the mounting and fixing holes (7) are uniformly formed in one end of the fixing plate (6) in a penetrating mode, a discharge chute (8) is formed in the fixing plate (6) in a penetrating mode, the adjusting and controlling device (1) is rotatably mounted at the upper end of the fixing plate (6), the adjusting and controlling device (1) is distributed on the periphery of the discharge chute (8), the blocking and separating devices (5) are uniformly and fixedly mounted on the adjusting and controlling device (1), four blocking and separating devices (5) are arranged, the blocking ring (4) is fixedly mounted on the upper end face of the fixing plate (6), the guide ring (3) is fixedly mounted at the upper end of the blocking ring (4), and the metal discs (2) are stacked inside the blocking ring (4);

a first supporting baffle (10) is arranged in the adjusting and controlling device (1), the middle part of the outer end surface of the first supporting baffle (10) is fixedly connected with a connecting plate (14), and the first supporting baffle (10) and the connecting plate (14) are respectively provided with four baffle plates which are distributed in a rectangular shape, a rotary clamping shaft (13) is rotatably inserted at the joint of the first supporting baffle (10) and the connecting plate (14), and the rotating clamping shaft (13) is rotatably inserted in the fixed plate (6), a threaded hole (9) is arranged on the first supporting baffle (10) and positioned on one side of the rotating clamping shaft (13) in a penetrating way, a first rotating connecting shaft (11) is rotatably inserted between the front end of the connecting plate (14) and the tail end of the first supporting baffle (10), a connecting transmission plate (12) is rotatably arranged between the tail end of the first supporting baffle plate (10) and the tail end of the adjacent connecting plate (14) through a first rotating connecting shaft (11), the middle part of the outer end face of the connecting transmission plate (12) positioned on one side is fixedly connected with a fixed control plate (15), a second rotary connecting shaft (16) is rotatably inserted in the middle of the front end of the fixed control plate (15), the front end of the fixed control plate (15) is rotationally connected with a telescopic rod (17) through a second rotating connecting shaft (16), the tail end of the telescopic rod (17) is fixedly connected with a cylinder (18);

a fixed adjusting frame (24) is installed in the baffle separating device (5), a sliding adjusting clamping groove (21) is formed in the middle of the fixed adjusting frame (24) in a penetrating mode, a sliding clamping plate (19) is connected to the inside of the sliding adjusting clamping groove (21) in a sliding clamping mode, fastening slots (20) are symmetrically formed in two sides of the front end of the fixed adjusting frame (24), two sides of the sliding clamping plate (19) are connected to the inside of the fastening slots (20) in a sliding clamping mode, fastening knobs (25) are connected to two sides of the sliding clamping plate (19) in a sliding clamping mode in a threaded insertion mode, the front end of each fastening knob (25) is connected to the inside of each fastening slot (20) in a insertion mode, a second supporting baffle (26) is fixedly connected to the middle of the front end face of the sliding clamping plate (19), a fastening threaded hole (23) is formed in one end of the fixed adjusting frame (24) in a penetrating mode, and a fastening threaded column (22) is connected to the internal threads of the fastening threaded hole (23) in an insertion mode;

the front ends of the second supporting baffle (26) and the first supporting baffle (10) are both arranged in an arc shape, and the front ends of the second supporting baffle (26) and the first supporting baffle (10) are arranged in a smooth shape;

the guide ring (3) is arranged in a conical shape, the diameter of the discharge chute (8) is larger than that of the metal disc (2), and the bottom end of the fastening threaded column (22) is inserted into the threaded hole (9) in a threaded manner;

the blocking and separating device (5) is arranged in a gap between the blocking rings (4);

when the device is used, the device is fixedly installed through the installation fixing hole (7), the discharging groove (8) is positioned right above other conveying devices after installation, the guide ring (3) is arranged in a conical shape, the metal disc (2) placed in the separation ring (4) is guided, the metal disc (2) rapidly enters the separation ring (4) through the guide ring (3) to be stacked, the telescopic rod (17) and the fixed control plate (15) are utilized to control the forward and reverse rotation of the first support separation baffle (10) and the connecting plate (14) in the adjustment control device (1) through the expansion and contraction of the air cylinder (18), the first support separation baffle (10) and the connecting plate (14) enable the first support separation baffle (10) and the front section and the front end of the second support baffle (26) to rotate forward and backward to the upper part of the discharging groove (8) in the process of forward and backward rotation, the first support baffle (10) and the second support baffle (26) have a gap, and the discharging groove (8) is regularly inserted above the second support baffle (10) when the separation baffle (2) is inserted and the separation baffle (26) is inserted and the separation baffle (2) is placed above the second support baffle (26), the metal disc (2) at the bottommost part is not supported by the first supporting baffle (10), the diameter of the discharge chute (8) is larger than that of the metal disc (2), so that the metal disc (2) at the bottommost part can fall onto a specified conveying device from the inside of the discharge chute (8), the first supporting baffle (10) and the second supporting baffle (26) rotate regularly in the forward and reverse directions, when passing through the upper part of the discharge chute (8), the metal discs (2) stacked together are separated regularly, the metal discs (2) stacked together are separated quickly and accurately, the pressing force and the friction force between the fastening knob (25) and the fastening slot (20) are controlled by screwing the fastening knob (25) according to the size of the gap between the metal discs (2), the second supporting baffle (26) and the fastening slot (20) are adjusted, the second supporting baffle (26) and the sliding adjusting knob (19) are fastened, the sliding adjusting knob (25) and the sliding adjusting knob (20) are inserted between the sliding adjusting baffle (10) and the sliding baffle (26) so as to adjust the vertical movement of the second supporting baffle (26) and the sliding baffle (10), and the sliding baffle (26) in the forward and reverse directions, and the sliding baffle (26) of the sliding baffle (10) are adjusted, and the sliding baffle (26), and the sliding baffle (2) in the process, and the sliding baffle (10) can be adjusted quickly, and the sliding baffle (2) can be adjusted, and the sliding baffle (10) can be adjusted in the sliding baffle (2) and adjusted in the process, and the sliding baffle can be adjusted in the sliding baffle (2) in the process, and the sliding baffle (2) can be adjusted ) In the gap between the metal discs, the front ends of the second supporting separation baffle (26) and the first supporting separation baffle (10) are arranged in a circular arc shape, so that the first supporting separation baffle (10) and the second supporting separation baffle (26) can not separate the discharge chute (8) when rotating to a certain distance, the front ends of the second supporting separation baffle (26) and the first supporting separation baffle (10) are arranged in a smooth shape, the first supporting separation baffle (10) and the second supporting separation baffle (26) are smoothly inserted into the gap between the metal discs (2), the metal discs (2) stacked together can be separated one by controlling the expansion and contraction of the telescopic rod (17) through the air cylinder (18) in the using process, and the separation speed of the metal discs (2) can be controlled by controlling the expansion and contraction frequency of the telescopic rod (17).

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