CN216657461U - Grinding device is used in production of nanometer blackening formation electrogalvanizing book - Google Patents

Abstract

The utility model discloses a polishing device for producing nano-blackening formed electrogalvanized rolls, which belongs to the technical field of electrogalvanized roll production, and comprises a machine base, wherein a negative pressure dust collector and two symmetrically arranged water cooling assemblies are respectively and fixedly arranged in the machine base, a transmission module is fixedly arranged between the inner surfaces of the machine base, the peripheral side surface of the transmission module is connected with an annular conveying belt, a coiled material is arranged on the top surface of the annular conveying belt, two symmetrically arranged conveying press rolls are rotatably connected between the inner surfaces of the machine base, transmission motors are respectively and fixedly connected with the end surfaces of the machine base and the positions corresponding to the two conveying press rolls, one ends of output shafts of the two transmission motors are respectively and fixedly connected with the two conveying press rolls, and rubber sleeves attached to the coiled material are respectively and fixedly arranged in the middle parts of the two conveying press rolls, the one-way single-mode polishing structure of the traditional polishing device is changed into a two-way multi-mode polishing structure.

Description

Grinding device is used in production of nanometer blackening formation electrogalvanizing book

Technical Field

The utility model relates to the technical field of electrogalvanizing coil production, in particular to a polishing device for producing a nano-blackening electrogalvanizing coil.

Background

The galvanized coil is a thin steel sheet, which is dipped in a molten zinc bath to adhere a layer of zinc to the surface.

The utility model discloses a polishing device for producing a nano-blackening electro-galvanized coil, which is used for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a polishing device for producing a nano-blackened electrogalvanized coil, which is used for solving the problems of low polishing efficiency and poor polishing effect of the existing polishing device in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a polishing device for producing a nano blackening formed electrogalvanizing roll comprises a base, wherein a negative pressure dust collector and two water-cooling assemblies symmetrically arranged are respectively and fixedly arranged in the base, a transmission module is fixedly arranged between the inner surfaces of the base, the side surface of the transmission module is connected with an annular conveying belt, the top surface of the annular conveying belt is provided with a coiled material, two conveying compression rollers symmetrically arranged are rotatably connected between the inner surfaces of the base, the end surface of the base and the positions corresponding to the two conveying compression rollers are respectively and fixedly connected with a transmission motor, one end of the output shaft of the two transmission motors is respectively and fixedly connected with the two conveying compression rollers, the middle parts of the two conveying compression rollers are respectively and fixedly provided with rubber sleeves laminated with the coiled material, the side surfaces of the periphery of the two conveying compression rollers are respectively and threadedly connected with two guide discs symmetrically arranged and matched with the coiled material, and a polishing mechanism is fixedly arranged at the central line position of the base, and the water cooling assembly and one end of the negative pressure dust collector are communicated with the polishing mechanism through hoses.

Preferably, the polishing mechanism comprises two groups of symmetrically arranged pressure applying push rods, the circumferential sides of the two groups of pressure applying push rods are fixedly connected with the base, the bottom ends of the two groups of pressure applying push rods are fixedly connected with a pressure applying seat, a group of regularly distributed elastic pressure applying parts are fixedly arranged in the pressure applying seat, a connecting frame is fixedly arranged at the bottom end of the elastic pressure applying parts, two side surfaces of the connecting frame are fixedly provided with abrasive belt mechanisms, the ports of the two water cooling assemblies are respectively communicated with the two abrasive belt mechanisms, the inner wall of the connecting frame is rotatably connected with two symmetrically arranged dust collecting shaft tubes, a plurality of groups of circumferentially arrayed dust collecting holes are respectively arranged on the circumferential sides of the two dust collecting shaft tubes, the end surface of the connecting frame is fixedly provided with a connecting tube, one end of each of the two dust collecting shaft tubes is rotatably communicated with the connecting tube, one end of a dust collecting port of the negative pressure suction machine is fixedly communicated with the connecting tube through a pipeline, the servo main motor is fixedly mounted on the inner wall of the connecting frame, one end of an output shaft of the servo main motor is in transmission connection with the two dust absorption shaft tubes through a chain, and the circumferential side surfaces of the two dust absorption shaft tubes are respectively and fixedly provided with a forward spiral brush assembly and a reverse spiral brush assembly.

Preferably, the two abrasive belt mechanisms each comprise a mounting seat, one surface of the mounting seat is fixedly connected with the connecting frame, the inner wall of the mounting seat is rotatably connected with a driving wheel and a driven wheel a, the back surface of the mounting seat is fixedly provided with a servo auxiliary motor corresponding to the position of the driving wheel, one end of an output shaft of the servo auxiliary motor is fixedly connected with the driving wheel, the inner wall of the mounting seat is fixedly provided with a guide groove, the inner wall of the guide groove is slidably connected with an adjusting seat, the inner wall of the adjusting seat is rotatably connected with a driven wheel b, the back surface of the mounting seat is fixedly provided with an adjusting push rod, one end of the adjusting push rod is fixedly connected with the adjusting seat, the surface of the mounting seat is connected with an annular abrasive belt through the driving wheel, the driven wheel a and the driven wheel b, the driving wheel and the driven wheel a are both provided with water-cooling cavities, and the end surface of the mounting seat is fixedly provided with a water-cooling cloth pipe, the driving wheel and one end of the driven wheel a are fixedly communicated with a water-cooling distribution pipe, and one end of the water-cooling distribution pipe is communicated with a water-cooling assembly at a corresponding position through a pipeline.

Preferably, forward spiral brush subassembly and reverse spiral brush subassembly all include inside lining spiral skeleton, the brush circle is installed to inside lining spiral skeleton's outward flange, the spiral direction of the inside lining spiral skeleton in forward spiral brush subassembly and the reverse spiral brush subassembly is opposite.

Preferably, the two abrasive belt mechanisms are arranged between the two dust absorption shaft tubes and are symmetrically arranged by taking the plane of the center line of the connecting frame as an axis.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, through the design of the polishing mechanism, the polishing device can efficiently finish the polishing operation before the galvanization of the thin steel plate, and during the polishing operation, the one-way single-mode polishing structure of the traditional polishing device is changed into a two-way multi-mode polishing structure, through the conversion of the polishing structure, the polishing efficiency and the polishing effect of the device on the thin steel plate are effectively improved, through the design of the dust suction holes, the generated dust can be effectively adsorbed during the polishing operation, through the realization of the adsorption effect, the environmental protection performance of the device during the operation is effectively ensured, through the design of the guide disc and the conveying compression roller, the coiled material can be effectively limited and correctly guided in the processing process, and through the design of the water-cooling cloth pipe, the loss speed of the annular abrasive belt can be effectively reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced 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 that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic view of a partially enlarged structure of a polishing apparatus for nano-blackening electrogalvanized coil production in FIG. 1;

FIG. 3 is a schematic structural diagram of a polishing mechanism of the polishing device for producing the nano-blackening electrogalvanized coil according to the present invention;

FIG. 4 is a schematic structural view of an elastic pressing member and a water-cooled pipe arrangement of the polishing device for producing the nano-blackening electro-galvanized coil according to the present invention;

FIG. 5 is a schematic structural diagram of an abrasive belt mechanism in the polishing device for producing the nano-blackening electro-galvanized coil according to the present invention;

FIG. 6 is a schematic structural diagram of an adjusting push rod, a servo auxiliary motor and an adjusting seat of the polishing device for producing the nano-blackening electrogalvanized coil.

In the drawings, the components represented by the respective reference numerals are listed below:

1-machine base, 2-negative pressure dust collector, 3-water cooling component, 4-transmission module, 5-annular conveyer belt, 6-coiled material, 7-conveying press roller, 8-transmission motor, 9-rubber sleeve, 10-guide disc, 11-grinding mechanism, 12-pressing push rod, 13-pressing base, 14-elastic pressing piece, 15-connecting frame, 16-abrasive belt mechanism, 17-dust-absorbing axle tube, 18-dust-absorbing hole, 19-connecting tube, 20-servo main motor, 21-forward spiral brush component, 22-reverse spiral brush component, 23-mounting base, 24-driving wheel, 25-driven wheel a, 26-servo auxiliary motor, 27-guide groove, 28-adjusting base, 29-driven wheel b, 30-adjusting push rod, 31-ring-shaped abrasive belt, 32-water-cooling cloth pipe.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a polishing device for producing a nano-blackening electro-galvanized coil comprises a base 1, wherein a negative pressure dust collector 2 and two symmetrically arranged water cooling assemblies 3 are respectively and fixedly arranged in the base 1, each water cooling assembly 3 comprises a water tank, the peripheral side surface of each water tank is fixedly connected with the base 1, a refrigerator is fixedly arranged in each water tank, the refrigerator is used for refrigerating liquid in each water tank, a water pump is fixedly arranged on the bottom surface of each water tank, one end of a water inlet of each water pump is fixedly communicated with the corresponding water tank, one end of a water outlet of each water pump is communicated with an abrasive belt mechanism 16 in a corresponding position through a pipeline, and the refrigerator and the water pump can be customized or selected according to actual requirements;

the automatic shaping machine comprises a machine base 1, and is characterized in that a transmission module 4 is fixedly arranged between the inner surfaces of the machine base 1, the circumferential side surfaces of the transmission module 4 are connected with an annular conveying belt 5, the transmission module 4 comprises a driving roller and a driven roller and further comprises a motor for driving the driving roller to rotate, two ends of the driving roller and two ends of the driven roller are rotatably connected with the machine base 1, the circumferential side surfaces of the driving roller and the driven roller are respectively connected with the annular conveying belt 5, a supporting plate is further arranged inside the machine base 1 and is arranged on the inner side of the annular conveying belt 5, the surface of the supporting plate is attached to the annular conveying belt 5, and the supporting plate is arranged to effectively shape the annular conveying belt 5;

the top surface of the annular conveyer belt 5 is provided with a coiled material 6, two symmetrically arranged conveying compression rollers 7 are rotatably connected between the inner surface of the base 1, the positions of the end surface of the base 1 corresponding to the two conveying compression rollers 7 are fixedly connected with a transmission motor 8, one end of the output shaft of the two transmission motors 8 is fixedly connected with the two conveying compression rollers 7 respectively, the middle parts of the two conveying compression rollers 7 are fixedly provided with rubber sleeves 9 attached to the coiled material 6, the rubber sleeves 9 are made of rubber, the radius of the rubber sleeves 9 is 1.1-1.2 times of the radius of the conveying compression rollers 7, in operation, the circumferential side surfaces of the rubber sleeves 9 are attached to the coiled material 6, in operation, the annular conveyer belt 5 rotates anticlockwise at a set speed, the two conveying compression rollers 7 rotate at the same speed as the annular conveyer belt 5, and the rotating directions of the two conveying compression rollers 7 are clockwise;

two symmetrically-arranged guide discs 10 matched with the coiled material 6 are in threaded connection with the circumferential side surfaces of the two conveying compression rollers 7, threaded grooves matched with the guide discs 10 are fixedly formed in the circumferential side surfaces of the two conveying compression rollers 7, and the two guide discs 10 are arranged to limit the position of the coiled material 6 from two sides;

a polishing mechanism 11 is fixedly arranged at the central line position of the base 1, and the two water cooling assemblies 3 and one end of the negative pressure dust collector 2 are communicated with the polishing mechanism 11 through hoses.

The polishing mechanism 11 comprises two groups of symmetrically arranged pressure applying push rods 12, the peripheral side surfaces of the two groups of pressure applying push rods 12 are fixedly connected with the base 1, the bottom ends of the two groups of pressure applying push rods 12 are fixedly connected with pressure applying seats 13, a group of regularly distributed elastic pressure applying parts 14 are fixedly arranged in the pressure applying seats 13, each elastic pressure applying part 14 comprises a damping telescopic pipe, and a pressure-resistant spring is sleeved on the peripheral side surface of each damping telescopic pipe;

the bottom end of a group of elastic pressing pieces 14 is fixedly provided with a connecting frame 15, two side surfaces of the connecting frame 15 are fixedly provided with abrasive belt mechanisms 16, ports of two water-cooling assemblies 3 are communicated with the two abrasive belt mechanisms 16 respectively, the inner wall of the connecting frame 15 is connected with two symmetrical dust absorption shaft tubes 17 in a rotating mode, a plurality of groups of dust absorption holes 18 distributed in a circumferential array mode are formed in the circumferential side surfaces of the two dust absorption shaft tubes 17, a connecting pipe 19 is fixedly arranged on the end surface of the connecting frame 15, one ends of the two dust absorption shaft tubes 17 are communicated with the connecting pipe 19 in a rotating mode, one ends of dust absorption ports of the negative pressure dust suction machine 2 are fixedly communicated with the connecting pipe 19 through a pipeline, a servo main motor 20 is fixedly arranged on the inner wall of the connecting frame 15, one end of an output shaft of the servo main motor 20 is connected with the two dust absorption shaft tubes 17 in a transmission mode through a chain, and the circumferential side surfaces of the two dust absorption shaft tubes 17 are fixedly provided with a forward spiral brush assembly 21 and a reverse spiral brush assembly 22 respectively.

The forward spiral brush assembly 21 and the reverse spiral brush assembly 22 both comprise lining spiral frameworks, brush rings are arranged on the outer edges of the lining spiral frameworks, the spiral directions of the lining spiral frameworks in the forward spiral brush assembly 21 and the reverse spiral brush assembly 22 are opposite, the brush rings are steel wire polishing brush rings, and the steel wire polishing brush rings are arranged in opposite spiral directions, so that the surface of the coiled material 6 can be subjected to bidirectional polishing operation;

wherein, two abrasive belt mechanisms 16 all include mount pad 23, a surface of mount pad 23 is fixedly connected with link 15, the inner wall of mount pad 23 is rotatably connected with a driving wheel 24 and a driven wheel a25, a servo-assisted motor 26 is fixedly installed on the back of mount pad 23 and corresponding to the position of driving wheel 24, one end of the output shaft of servo-assisted motor 26 is fixedly connected with driving wheel 24, the inner wall of mount pad 23 is fixedly provided with a guide groove 27, the inner wall of guide groove 27 is slidably connected with an adjusting seat 28, the inner wall of adjusting seat 28 is rotatably connected with a driven wheel b29, the back of mount pad 23 is fixedly provided with an adjusting push rod 30, one end of adjusting push rod 30 is fixedly connected with adjusting seat 28, the surface of mount pad 23 is connected with annular abrasive belt 31 through driving wheel 24, driven wheel a25 and driven wheel b29, the insides of driving wheel 24 and driven wheel a25 are both provided with water-cooling cavities, the end face of mount pad 23 is fixedly provided with water-cooling cloth pipe 32, one ends of the driving wheel 24 and the driven wheel a25 are fixedly communicated with the water-cooling distribution pipe 32, and one end of the water-cooling distribution pipe 32 is communicated with the water-cooling assembly 3 at the corresponding position through a pipeline.

Wherein, two abrasive belt mechanisms 16 are arranged between two dust absorption shaft tubes 17, and the two abrasive belt mechanisms 16 are arranged in a symmetrical way by taking the plane of the central line of the connecting frame 15 as an axis.

The device is mainly suitable for processing operation of thin steel plates, an unreeling mechanism of a coiled material 6, namely the thin steel plate, is placed at one end of a feeding hole of an annular conveying belt 5, a reeling mechanism of the coiled material 6, namely the thin steel plate, is placed at one end of a discharging hole of the annular conveying belt 5, before the work, the positions of two guide discs 10 are adjusted according to the specification of the coiled material 6, the coiled material 6 is limited from two sides by adjusting the guide discs 10, during the work, the unreeling mechanism and the reeling mechanism move at the same speed, wherein the rotating speed of the unreeling mechanism is the same as that of the annular conveying belt 5, after the annular conveying belt 5 rotates, the coiled material 6 is further conveyed forwards at a set speed, during the work of the annular conveying belt 5, the coiled material 6 is synchronously driven by two conveying compression rollers 7 to convey forwards, when the annular conveying belt 5 works, the two dust absorption shaft tubes 17 rotate in the same direction, after the two dust absorption shaft tubes 17 rotate, then drive spiral brush subassembly and polish 6 surfaces of coiled material, the in-process of polishing, negative pressure dust catcher 2 work, and at the in-process of negative pressure dust catcher 2 work, two annular abrasive band 31 are with fast antiport, then carry out synchronous two-way operation of polishing to coiled material 6, and when annular abrasive band 31 polished, two water-cooling subassembly 3 carried out the water-cooling operation for annular abrasive band 31.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (5)

1. The utility model provides a nanometer blackening becomes electrogalvanizing and rolls up production and uses grinding device, includes frame (1), its characterized in that, frame (1) inside respectively fixed mounting have negative pressure dust catcher (2) and two water-cooling component (3) that the symmetry set up, fixed mounting has drive module (4) between frame (1) the internal surface, drive module (4) week side is connected with endless conveyor (5), endless conveyor (5) top surface is provided with coiled material (6), it carries compression roller (7) that two symmetries set up to rotate to be connected with between frame (1) the internal surface, frame (1) terminal surface just corresponds two equal fixedly connected with drive motor (8) in position of carrying compression roller (7), and the one end of two drive motor (8) output shafts respectively with two carry compression roller (7) fixed connection, two carry compression roller (7) middle part equal fixed mounting have with rubber sleeve (9) of coiled material (6) laminating, two carry compression roller (7) week side equal threaded connection have two symmetries set up and with coiled material (6) complex positioning disk (10), frame (1) central line fixed mounting has grinding machanism (11), two water-cooling subassembly (3) and negative pressure dust catcher (2) one end all communicate through hose and grinding machanism (11).

2. The polishing device for the production of the nano blackening electrogalvanized coil as claimed in claim 1, characterized in that: the grinding mechanism (11) comprises two groups of symmetrically arranged pressure applying push rods (12), the circumferential side surfaces of the two groups of pressure applying push rods (12) are fixedly connected with the base (1), the bottom ends of the two groups of pressure applying push rods (12) are fixedly connected with pressure applying seats (13), a group of regularly distributed elastic pressure applying parts (14) are fixedly arranged in the pressure applying seats (13), a connecting frame (15) is fixedly arranged at the bottom end of each elastic pressure applying part (14), abrasive belt mechanisms (16) are fixedly arranged on two side surfaces of the connecting frame (15), ports of the two water cooling assemblies (3) are respectively communicated with the two abrasive belt mechanisms (16), the inner wall of the connecting frame (15) is rotatably connected with two symmetrically arranged dust absorbing shaft tubes (17), and a plurality of groups of dust absorbing holes (18) distributed in a circumferential array are formed in the circumferential side surfaces of the two dust absorbing shaft tubes (17), the terminal surface fixed mounting of link (15) has yoke pipe (19), two dust absorption central siphon (17) one end all rotates the intercommunication with yoke pipe (19), the one end of negative pressure dust catcher (2) dust absorption mouth is passed through the pipeline and is managed (19) fixed intercommunication with the yoke, link (15) inner wall fixed mounting has servo main motor (20), the one end of servo main motor (20) output shaft is passed through the chain and is connected, two with two dust absorption central siphon (17) transmissions dust absorption central siphon (17) week side fixed mounting respectively has forward spiral brush subassembly (21) and reverse spiral brush subassembly (22).

3. The polishing device for the production of the nano blackening electrogalvanized coil as claimed in claim 2, characterized in that: two abrasive belt mechanisms (16) all include a mounting seat (23), one surface of the mounting seat (23) is fixedly connected with a connecting frame (15), the inner wall of the mounting seat (23) is rotatably connected with a driving wheel (24) and a driven wheel a (25), a servo auxiliary motor (26) is fixedly mounted on the back surface of the mounting seat (23) corresponding to the position of the driving wheel (24), one end of an output shaft of the servo auxiliary motor (26) is fixedly connected with the driving wheel (24), a guide groove (27) is fixedly formed in the inner wall of the mounting seat (23), an adjusting seat (28) is slidably connected with the inner wall of the guide groove (27), the driven wheel b (29) is rotatably connected with the inner wall of the adjusting seat (28), an adjusting push rod (30) is fixedly mounted on the back surface of the mounting seat (23), one end of the adjusting push rod (30) is fixedly connected with the adjusting seat (28), and the surface of the mounting seat (23) passes through the driving wheel (24), The driven wheel a (25) and the driven wheel b (29) are connected with an annular abrasive belt (31), water-cooling cavities are formed in the driving wheel (24) and the driven wheel a (25), a water-cooling cloth pipe (32) is fixedly mounted on the end face of the mounting seat (23), one ends of the driving wheel (24) and the driven wheel a (25) are fixedly communicated with the water-cooling cloth pipe (32), and one end of the water-cooling cloth pipe (32) is communicated with the water-cooling component (3) in the corresponding position through a pipeline.

4. The polishing device for the production of the nano blackening electrogalvanized coil as claimed in claim 2, characterized in that: forward spiral brush subassembly (21) and reverse spiral brush subassembly (22) all include inside lining spiral skeleton, the brush circle is installed to the outward flange of inside lining spiral skeleton, the spiral direction of the inside lining spiral skeleton in forward spiral brush subassembly (21) and the reverse spiral brush subassembly (22) is opposite.

5. The polishing device for the production of the nano blackening electrogalvanized coil as claimed in claim 2, characterized in that: the two abrasive belt mechanisms (16) are arranged between the two dust absorption shaft tubes (17), and the two abrasive belt mechanisms (16) are symmetrically arranged by taking the plane of the central line of the connecting frame (15) as an axis.

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