CN111730479A

CN111730479A - Polymorphic metal polisher device of duplex position continuous cutting

Info

Publication number: CN111730479A
Application number: CN202010676512.5A
Authority: CN
Inventors: 李辉虎
Original assignee: Fuzhou Changle District Siat Technology Co ltd
Current assignee: Fuzhou Changle District Siat Technology Co ltd
Priority date: 2020-07-14
Filing date: 2020-07-14
Publication date: 2020-10-02

Abstract

The invention discloses a double-station polymorphic metal polisher device capable of continuously cutting, which comprises a polisher body, wherein a cavity is formed in the polisher body, a transmission bevel gear is connected in the cavity in a sliding manner, the transmission bevel gear is provided with a double-station device, the double-station device comprises a rotating gear, the rotating gear is matched in a rotating manner, a station block is fixedly connected above the rotating gear in a bilateral symmetry manner, a clamping groove is formed in the station block, a belt wheel groove is symmetrically formed in the clamping groove in a direction away from the center of the clamping groove, a clamping thread block is connected in the clamping groove in a threaded manner, and metal plates can be clamped or loosened by the clamping thread blocks in the station blocks on the left side and the right side through rotating the rotating gear.

Description

Polymorphic metal polisher device of duplex position continuous cutting

Technical Field

The invention relates to the technical field of machine grinding, in particular to a polymorphic metal grinding machine device capable of continuously cutting at double stations.

Background

Grinding is one of surface modification technologies, a processing method for changing physical properties of a material surface through friction is adopted, grinding machines are frequently used in the later period of use of some metals, the grinding machines generally only have one station, and the problem of low efficiency is caused.

Disclosure of Invention

The invention aims to provide a polymorphic metal grinding machine device with double stations capable of continuously cutting, which is used for overcoming the defects in the prior art.

According to the polymorphic metal polisher device with double stations capable of continuously cutting, a cavity is formed in the polisher body, a transmission bevel gear is connected in the cavity in a sliding mode and provided with a double-station device, the double-station device comprises a rotating block, the rotating block is matched with the rotating block in a rotating mode, a station block is symmetrically and fixedly connected above the rotating block in a left-right mode, a clamping groove is formed in the station block, pulley grooves are symmetrically formed in the clamping groove in a direction away from the center of the clamping groove, clamping thread blocks are connected with the pulley grooves in the clamping groove in a threaded mode, the clamping thread blocks in the station blocks on the left side and the right side can clamp or loosen a metal plate by rotating the rotating block, a reset spring is matched with the top wall on the left side of the cavity in a rotating mode, the tail end of the lower side of the reset spring is located in, the polishing device comprises a polishing block, a top wall, a spring groove, a connecting rod, a hinged block, a hinged rod top wall and a hinged rod, wherein the polishing groove is formed in the polishing block, the top wall is provided with a telescopic fixing rod, the fixing rod is bilaterally and symmetrically connected with the connecting rod, the hinged block is hinged to the hinged rod, the spring groove is not internally provided with a polishing plate, the polishing plate is connected with a connecting spring through the wall body between the spring grooves, the fixing rod extends downwards, the polishing plate can control the hinged block to form an inverted eight-shaped polishing groove surface, the fixing rod extends upwards, the polishing plate can control the hinged block to form an inverted eight shape, the metal plate polishing conical surface is used, the lifting fixing rod is in an original state, and the metal plate can be polished.

On the basis of the technical scheme, the double-station device also comprises a motor shaft fixedly connected with the bottom wall of the rotating block, the motor shaft extends downwards and is in power connection with a rotating motor embedded in the wall body of the lifting block, a gear transmission groove is formed in the rotating block, rotating shafts are symmetrically and rotationally matched with the top wall of the gear transmission groove in a bilateral symmetry mode, the threads of the left rotating shaft and the right rotating shaft are opposite, the rotating shafts are positioned in the gear transmission groove and are fixedly connected with meshing gears, the central top wall of the gear transmission groove is rotationally connected with a fixed gear, the fixed gear extends upwards and is fixedly connected with the wall body of a grinding machine body, the fixed shaft is positioned in the gear transmission groove and is fixedly connected with the fixed gear, a bevel gear transmission groove is formed in the lower side of the clamping groove, and a rotating shaft is, the rotating shaft is positioned in the bevel gear transmission groove and is fixedly connected with a rotating shaft, a wall body between the belt wheel groove and the bevel gear transmission groove is in rotating fit with a rotating shaft, the rotating shaft is positioned in the bevel gear transmission groove and is fixedly connected with a transmission bevel gear, the rotating shaft is positioned in the wall body of the bevel gear transmission groove and is fixedly connected with the transmission bevel gear meshed with the transmission bevel gear, the clamping screw rod and the rotating shaft are positioned in the belt wheel groove and are in belt wheel transmission connection, a lifting groove is formed in the center of the lower side of the lifting block, a lifting rack fixedly connected with the lifting block is connected in the lifting groove in a sliding manner, a bevel gear meshing groove is formed in the left side of the lifting groove, a gear shaft is rotatably matched with the wall body between the bevel gear meshing groove and the lifting groove, and the gear shaft, the bevel gear transmission mechanism is characterized in that a meshing groove is formed in the upper side of the bevel gear meshing groove, a transmission shaft is arranged on a wall body between the meshing groove and the bevel gear meshing groove in a rotating fit mode, the transmission shaft and the gear shaft are located in the bevel gear meshing groove and are connected through an inner bevel gear pair, the rotating shaft is located in the bevel gear transmission groove and is fixedly connected with a driving belt wheel located on the lower side of the bevel gear transmission groove, a matching shaft located on the rear side of the rotating shaft is arranged on the top wall of the bevel gear transmission groove in a rotating fit mode, a driven belt wheel is fixedly connected in the bevel gear transmission groove, and a connecting belt is connected.

On the basis of the technical scheme, the double-station device further comprises a matching groove arranged at the tail end of the upper side of the matching shaft, the bottom wall of the matching groove is rotationally connected with a one-way shaft, the one-way shaft is fixedly connected with a butting block in the matching groove, the front wall of the matching groove is provided with a one-way groove, the one-way groove is internally and slidably matched with a one-way block which is in one-way rotation fit with the butting block, a one-way spring is connected between the one-way block and the front wall of the one-way groove, the upper side of the bevel gear transmission groove is provided with a sliding groove, the one-way shaft is axially extended into the sliding groove and is fixedly connected with a half gear, the sliding groove is internally and slidably matched with a pushing rack which is meshed with the half gear, a sliding groove is connected between the pushing rack and the rear wall of the sliding, and a torsion spring door is arranged on the right wall of the clamping groove.

On the basis of the technical scheme, the polishing device comprises a transmission gear which is located in the meshing groove and fixedly connected with the transmission shaft, the polishing shaft extends to a rotating gear fixedly connected with the meshing groove in the axial direction, the top wall of the meshing groove is rotationally matched with a spline shaft which is located between the transmission shaft and the polishing shaft on the right side, the spline shaft is located in the meshing groove and is in splined connection with a spline gear, a permanent magnet is fixedly mounted on the upper side of the spline gear, an electromagnet is fixedly mounted on the upper side of the permanent magnet, a magnet spring is connected between the electromagnet and the permanent magnet, and the spline shaft extends to the tail end and is connected with a polishing motor embedded in a wall body.

The invention has the beneficial effects that: through rotating the rotatory piece one hundred eighty degrees, can push out the organism with the sheet metal on the station board that polishes, press from both sides the metal on another not-polished station simultaneously tightly, save the intermediate time, the board of polishing simultaneously can polish sheet metal's conical surface, capping, plane.

Drawings

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

FIG. 1 is a schematic diagram of the overall structure of a double-station continuously-cuttable polymorphic metal grinder assembly;

FIG. 2 is a schematic view of the structure in the direction A-A in FIG. 1;

fig. 3 is an enlarged view of a portion of the structure at B in fig. 1;

FIG. 4 is an enlarged view of a portion of the structure at C in FIG. 1;

fig. 5 is a schematic view of the structure in the direction D-D in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: 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.

Referring to fig. 1 to 5, the double-station polymorphic metal polisher device capable of continuously cutting comprises a polisher body 15, a cavity 72 is formed in the polisher body 15, a transmission bevel gear 31 is slidably connected in the cavity 72, the transmission bevel gear 31 is provided with a double-station device, the double-station device comprises a rotating block 43, the rotating block 43 is rotatably matched in the rotating block 43, a station block 73 is fixedly connected above the rotating block 43 in a left-right symmetrical manner, a clamping groove 28 is formed in the station block 73, a pulley groove 75 is symmetrically formed in the clamping groove 28 in a direction away from the center of the clamping groove 28, the pulley groove 75 is positioned in the clamping groove 28 and is internally connected with a clamping thread block 29, by rotating the rotating block 43, the clamping thread blocks 29 in the station block 73 on the left side and the right side can clamp or loosen a metal plate, the cavity 72 left side roof normal running fit has reset spring 71, reset spring 71 downside end is located fixedly connected with sanding block 44 in the cavity 72, be provided with grinding device in sanding block 44, grinding device includes seting up the groove of polishing 45 in sanding block 44, telescopic electric telescopic handle 52 is installed to the roof, electric telescopic handle 52 bilateral symmetry is connected with connecting rod 51, connecting rod 51 fixedly connected with articulates piece 47, articulate piece 47 articulated with groove of polishing 45 roof fixedly connected with articulates pole 46, it does not have the interior sliding connection of spring groove 49 in the spring groove 49 to have sanding plate 50 to articulate piece 47, sanding plate 50 with the wall body between the spring groove 49 is connected with connecting spring 48, electric telescopic handle 52 downwardly extending, sanding plate 50 can with about articulated piece 47 becomes the eight shape of falling and polishes the grooved surface, the electric telescopic rod 52 extends upwards, the left and right hinged blocks 47 can be shaped like a regular octagon by the polishing plate 50, the conical surface of the metal plate can be polished, and when the electric telescopic rod 52 is lifted to be in an original state, the plane of the metal plate can be polished.

In addition, in one embodiment, the double-station device further comprises a motor shaft 41 fixedly connected with the bottom wall of the rotating block 43, the motor shaft 41 extends downwards and is in power connection with a rotating motor 40 embedded in the wall body of the lifting block 37, a gear transmission groove 39 is formed in the rotating block 43, a rotating shaft 36 is symmetrically and rotationally matched on the top wall of the gear transmission groove 39 in a left-right mode, the threads of the left rotating shaft 36 and the right rotating shaft 36 are opposite, the rotating shaft 36 is fixedly connected with a meshing gear 38 in the gear transmission groove 39, a fixed gear 42 is rotationally connected on the central top wall of the gear transmission groove 39, the fixed gear 42 extends upwards and is fixedly connected with the wall body of the grinding machine body 15, the fixed shaft 74 is fixedly connected with the fixed gear 42 in the gear transmission groove 39, a bevel gear transmission groove 33 is formed in the lower side of the clamping groove 28, and a rotating shaft 36 is rotationally matched on, the rotating shaft 36 is positioned in the bevel gear transmission groove 33 and fixedly connected with a rotating shaft 36, a wall body between the bevel gear transmission groove 33 and the pulley groove 75 is in running fit with a rotating shaft 32, the rotating shaft 36 is positioned in the bevel gear transmission groove 33 and fixedly connected with a transmission bevel gear 34, the rotating shaft 32 is positioned in the wall body of the bevel gear transmission groove 33 and fixedly connected with a transmission bevel gear 31 meshed with the transmission bevel gear 34, the clamping screw 30 and the rotating shaft 32 are positioned in the pulley groove 75 and in running drive connection, the center of the lower side of the lifting block 37 is provided with a lifting groove 13, the lifting groove 13 is internally connected with a lifting rack 12 fixedly connected with the lifting block 37 in a sliding way, the left side of the lifting groove 13 is provided with a bevel gear meshing groove 10, and a wall body between the bevel gear meshing groove 10 and the lifting groove 13 is in running fit, the gear shaft 11 is positioned in the lifting groove 13 and is fixedly connected with a lifting gear 14 engaged with the lifting rack 12, the upper side of the bevel gear engaging groove 10 is provided with an engaging groove 24, a wall body between the engaging groove 24 and the bevel gear engaging groove 10 is in running fit with a transmission shaft 27, the transmission shaft 27 is connected with a bevel gear pair positioned in the bevel gear engaging groove 10 of the gear shaft 11, the rotating shaft 36 is positioned in the bevel gear transmitting groove 33 and is also fixedly connected with a driving pulley 35 positioned at the lower side of the bevel gear transmitting groove 33, the top wall of the bevel gear transmitting groove 33 is also in running fit with a matching shaft 57 positioned at the rear side of the rotating shaft 36, the matching shaft 57 is positioned in the bevel gear transmitting groove 33 and is fixedly connected with a driven pulley 56, a connecting belt 55 is connected between the driven pulley 56 and the driving pulley 35, the rotating block 43 rotates the station block 73 positioned at the left side one hundred degrees and releases the metal plate, while turning the right rotary block 43 to the left and clamping the metal sheets, the reverse rotation of the rotary block 43 by one hundred and ten degrees can clamp the metal sheets in the station block 73 previously on the left and loosen the metal sheets in the station block 73 previously on the right.

In addition, in one embodiment, the double-station device further includes a matching groove 61 opened at the upper end of the matching shaft 57, the bottom wall of the matching groove 61 is rotatably connected with a one-way shaft 58, the one-way shaft 58 is fixedly connected with an abutting block 59 in the matching groove 61, the front wall of the matching groove 61 is provided with a one-way groove 67, a one-way block 69 in one-way rotation fit with the abutting block 59 is slidably fitted in the one-way groove 67, a one-way spring 68 is connected between the one-way block 69 and the front wall of the one-way groove 67, the upper side of the bevel gear transmission groove 33 is provided with a sliding groove 70, the one-way shaft 58 extends upwards to the inside of the sliding groove 70 and is fixedly connected with a half gear 63, a push-out rack 62 engaged with the half gear 63 is slidably fitted in the sliding groove 70, and a sliding groove 70 is connected between the push-, the tail end of the push-out rack 62 extending forwards is fixedly connected with a push-out block 65 positioned in the clamping groove 28, a torsion spring door 66 is installed on the right wall of the clamping groove 28, and when the station block 73 on the clamping side rotates to the releasing side, the push-out block 65 can push out the metal plate.

In addition, in one embodiment, the grinding device includes a transmission gear 26 fixedly connected with the transmission shaft 27 and located in the engagement groove 24, the grinding shaft 17 extends upward to be fixedly connected with a rotating gear 16 in the engagement groove 24, the top wall of the engagement groove 24 is rotatably matched with a spline shaft 18 located between the transmission shaft 27 and the grinding shaft 17, the spline shaft 18 is located in the engagement groove 24 and is connected with a spline gear 23 in a spline manner, a permanent magnet 20 is fixedly installed on the upper side of the spline gear 23, an electromagnet 21 is fixedly installed on the upper side of the permanent magnet 20 of the spline shaft 18, a magnet spring 22 is connected between the electromagnet 21 and the permanent magnet 20, the spline shaft 18 extends upward to be connected with a grinding motor 19 embedded in a wall body in a power manner, when the lifting block 37 needs to be lifted, the electromagnet 21 is not powered on, when the sanding block 44 is about to sand a metal sheet, the electromagnet 21 is energized.

In the initial state, the transmission gear 26 is meshed with the transmission gear 26, the spline gear 23 is not meshed with the rotating gear 16, the lifting block 37 is arranged at the bottom side of the cavity 72, and the clamping thread blocks 29 are far away from each other.

When the plate polishing work is needed, the plate is placed into the right clamping groove 28 by the manipulator, the rotating motor 40 rotates forward one hundred and ten degrees so that the rotating block 43 rotates the spline shaft 180 degrees, the right clamping groove 28 is rotated to the left, in the process, the meshing gear 38 rotates around the fixed gear 42 so that the meshing gear 38 rotates, the transmission bevel gear 34 is driven to rotate so that the transmission bevel gear 31 rotates, the clamping screw rod 30 rotates the clamping thread block 29 to clamp the plate, the station block 73 on the left side rotates one hundred and ten degrees to the right side, simultaneously, the clamping thread blocks 29 are far away from each other so that the metal plate is loosened, simultaneously, the left and left driving pulley 35 drives the driven pulley 56 to rotate, the matching shaft 57 rotates, the one-way block 69 drives the abutting block 59 to rotate, the one-way shaft 58 drives the half gear 63 to rotate for one circle, and the pushing rack 62 moves forward to push the, after the half gear 63 rotates for half circle, the half gear is disengaged from the push-out rack 62 and is meshed with the push-out rack 62, the original position is restored under the action of the reset spring 71, then the polishing motor 19 works, the transmission gear 26 drives the transmission shaft 27 to rotate through the transmission gear 26, so that the gear shaft 11 rotates to drive the lifting gear 14 to rotate, the lifting rack 12 drives the lifting block 37 to ascend, when the metal plate ascends to the qualified height, the electromagnet 21 starts to repel the permanent magnet 20, the magnet spring 22 is meshed with the rotating gear 16, the polishing shaft 17 drives the polishing block 44 to rotate at high speed, so that the metal plate is polished, when the metal plate needs to be polished, the polishing plates 50 on two sides are mutually abutted, when the metal plate needs to be polished with a conical surface, the electric telescopic rod 52 contracts to enable the polishing plate 50 to be in an inverted eight shape, when the metal plate needs to be polished with a groove surface, the permanent magnet 20 is powered off, the spline gear 23 is meshed with the transmission gear 26, the grinding motor 19 is rotated reversely, the lifting block 37 descends to the original position, the rotating motor 40 rotates reversely by one hundred degrees at the moment, the metal bar on the left side is loosened, meanwhile, the metal plate is pushed out, the metal plate on the right side is clamped, but due to the shape of the one-way block 69, the one-way block 69 cannot drive the abutting block 59 to rotate, and the one-way shaft 58 cannot rotate.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a polymorphic metal polisher device that duplex position can cut in succession, includes the organism of polishing, its characterized in that: the metal plate polishing machine is characterized in that a cavity is formed in the polishing machine body, a transmission bevel gear is connected in the cavity in a sliding mode and provided with a double-station device, the double-station device comprises a rotating block, the rotating block is matched with the rotating block in a rotating mode, the rotating block is symmetrically and fixedly connected with a station block in a bilateral symmetry mode above the rotating block, a clamping groove is formed in the station block, a belt wheel groove is symmetrically formed in the clamping groove in a direction away from the center direction of the clamping groove, the belt wheel groove is located in the clamping groove, a clamping thread block is connected in the clamping groove in a threaded mode, the clamping thread block in the station block on the left side and the clamping groove in the station block on the right side can clamp or release a metal plate by rotating the rotating block, a reset spring is matched with the top wall on the left side of the cavity in a rotating mode, the, telescopic dead lever is installed to the roof, dead lever bilateral symmetry is connected with the connecting rod, the articulated piece of connecting rod fixedly connected with, articulated piece articulated with polish groove top wall fixedly connected with hinge rod, it has the board of polishing to have set up spring groove in the articulated piece and do not have what thing spring inslot sliding connection, polish the board with wall body between the spring groove is connected with coupling spring, the dead lever downwardly extending, polish the board and can control articulated piece becomes the groove face of polishing of eight shapes down, the dead lever upwards extends, polish the board and can control articulated piece becomes eight shapes just, polishes the conical surface with sheet metal, is in primitive state when the dead lever that rises, can polish the sheet metal plane.

2. The double station continuously cuttable polymorphous metal grinder assembly according to claim 1, characterized in that: the double-station device also comprises a motor shaft fixedly connected with the bottom wall of the rotating block, the motor shaft extends downwards and is in power connection with a rotating motor embedded in the wall body of the lifting block, a gear transmission groove is formed in the rotating block, the top wall of the gear transmission groove is bilaterally and symmetrically matched with a rotating shaft in a rotating mode, the threads of the left rotating shaft and the right rotating shaft are opposite, the rotating shaft is positioned in the gear transmission groove and is fixedly connected with a meshing gear, the central top wall of the gear transmission groove is rotatably connected with a fixed gear, the fixed gear extends upwards and is fixedly connected with the wall body of the polishing machine body, the fixed shaft is positioned in the gear transmission groove and is fixedly connected with a fixed gear, a bevel gear transmission groove is formed in the lower side of the clamping groove, the rotating shaft is rotatably matched with the wall body between the gear transmission groove, a rotating shaft is rotatably matched on a wall body between the pulley groove and the bevel gear transmission groove, the rotating shaft is positioned in the bevel gear transmission groove and is fixedly connected with a transmission bevel gear, the rotating shaft is positioned in the wall body of the bevel gear transmission groove and is fixedly connected with a transmission bevel gear meshed with the transmission bevel gear, the clamping screw rod is positioned in the pulley groove and is in pulley transmission connection with the rotating shaft, a lifting groove is formed in the center of the lower side of the lifting block, a lifting rack fixedly connected with the lifting block is connected in the lifting groove in a sliding manner, a bevel gear meshing groove is formed in the left side of the lifting groove, a gear shaft is rotatably matched on the wall body between the bevel gear meshing groove and the lifting groove, the gear shaft is positioned in the lifting groove and is fixedly connected with a lifting gear meshed with the lifting rack, and a, the wall body between the meshing groove and the bevel gear meshing groove is in running fit with a transmission shaft, the transmission shaft is connected with a bevel gear pair in the bevel gear meshing groove through a gear shaft, the rotating shaft is located in the bevel gear transmission groove and is fixedly connected with a driving belt wheel located on the lower side of the bevel gear transmission groove, the top wall of the bevel gear transmission groove is in running fit with a matching shaft located on the rear side of the rotating shaft, the matching shaft is located in the bevel gear transmission groove and is fixedly connected with a driven belt wheel, and a connecting belt is connected between the driven belt wheel and the driving belt wheel.

3. The double station continuously cuttable polymorphous metal grinder assembly according to claim 1, characterized in that: the double-station device also comprises a matching groove arranged at the tail end of the upper side of the matching shaft, the bottom wall of the matching groove is rotationally connected with a one-way shaft, the one-way shaft is positioned in the matching groove and is fixedly connected with a butting block, the front wall of the matching groove is provided with a one-way groove, a one-way block which is in one-way rotation fit with the abutting block is in sliding fit in the one-way groove, a one-way spring is connected between the one-way block and the front wall of the one-way groove, a sliding groove is arranged on the upper side of the bevel gear transmission groove, a half gear is fixedly connected in the one-way axial direction extending into the sliding groove, a push-out rack meshed with the semi-gear is in sliding fit in the sliding groove, a sliding groove is connected between the push-out rack and the rear wall of the sliding groove, the pushing rack extends forwards, the tail end of the pushing rack is fixedly connected with a pushing block located in the clamping groove, and a torsion spring door is installed on the right wall of the clamping groove.

4. The double station continuously cuttable polymorphous metal grinder assembly according to claim 1, characterized in that: the grinding device comprises a transmission gear which is located in the meshing groove and fixedly connected with the transmission shaft, the grinding shaft extends to a rotating gear fixedly connected with the meshing groove, the meshing groove top wall is rotationally matched and located on the right side of a spline shaft between the transmission shaft and the grinding shaft, the spline shaft is located in the meshing groove and is in splined connection with a spline gear, a permanent magnet is fixedly mounted on the upper side of the spline gear, the spline shaft is located on the upper side of the permanent magnet and is fixedly mounted with an electromagnet, a magnet spring is connected between the electromagnet and the permanent magnet, and the spline shaft extends upwards to the tail end and is connected with a grinding motor embedded in a wall body.