CN214692168U - Lamination device and silicon steel sheet receiving equipment - Google Patents
Lamination device and silicon steel sheet receiving equipment Download PDFInfo
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- CN214692168U CN214692168U CN202023350704.1U CN202023350704U CN214692168U CN 214692168 U CN214692168 U CN 214692168U CN 202023350704 U CN202023350704 U CN 202023350704U CN 214692168 U CN214692168 U CN 214692168U
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Abstract
The utility model discloses a lamination device to and adopt this lamination device's silicon steel sheet to receive material equipment, including feed divider with the utility model discloses the lamination device of first aspect embodiment, feed divider is including dividing material piece, last branch material conveyer belt and lower branch material conveyer belt, and the one end of going up the branch material conveyer belt and the one end of lower branch material conveyer belt are connected with dividing the material piece, divide the material piece to be used for carrying supreme branch material conveyer belt and lower branch material conveyer belt respectively with the silicon steel sheet, the utility model discloses the lamination device of first aspect embodiment, the quantity of lamination device is two, and parallel arrangement about two lamination devices to be connected with the one end of the far away branch material piece of last branch material conveyer belt and lower branch material conveyer belt respectively. According to the utility model discloses a lamination device to and adopt this lamination device's silicon steel sheet to receive the material equipment, can realize the automatic lamination of silicon steel sheet, improve production efficiency.
Description
Technical Field
The utility model relates to a transformer core production equipment field, in particular to lamination device to and adopt this lamination device's silicon steel sheet to receive material equipment.
Background
The silicon steel is a magnetic substance with strong magnetic conductivity, and can generate larger magnetic induction intensity in the electrified coil, thereby reducing the volume of the transformer. Therefore, silicon steel sheets are widely used as a material for manufacturing transformer cores.
At present, the production of iron cores is mainly formed by manual stacking, the production efficiency is low, the product quality is unstable, defective products are easy to occur, the manufacturing cost of the iron cores is high, and the existing market demands can not be met.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a lamination device to and adopt this lamination device's silicon steel sheet to receive the material equipment, can realize the automatic lamination of silicon steel sheet, improve production efficiency.
According to the utility model discloses lamination device of first aspect embodiment includes: a support; the conveying unit is arranged on the bracket, is used for sucking and conveying silicon steel sheets, and comprises two magnetic conveying belts and a conveying drive; the two magnetic conveyor belts are on the same horizontal plane and are in clearance fit; the transmission drive is used for driving the magnetic transmission belt to rotate; the discharging plate is placed below the magnetic conveying belt and used for placing the silicon steel sheets; the sheet pressing unit is arranged on the bracket and used for pressing the silicon steel sheets downwards so as to enable the silicon steel sheets to fall to the material discharging plate from the magnetic conveying belt; the tabletting unit comprises a material pressing arm and a pressing drive; the material pressing arm can be arranged in a gap between the two magnetic conveyor belts in a vertically movable mode and is arranged above the material discharging plate; the pressing drive is used for driving the pressing arm to move up and down; the material pressing arm comprises a first state and a second state; when the pressing arm is in the first state, the lowest point of the pressing arm is higher than the lower plane of the magnetic conveyor belt; when the pressing arm is in the second state, the lowest point of the pressing arm is lower than the lower plane of the magnetic conveyor belt.
According to the utility model discloses lamination device of first aspect embodiment has following technological effect at least: when the silicon steel sheets are tightly attracted by the two magnetic conveying belts and are placed below the magnetic conveying belts, the magnetic conveying belts rotate, the silicon steel sheets are conveyed above the material placing plate, the material pressing arm presses the silicon steel sheets downwards, the silicon steel sheets are separated from the magnetic conveying belts and fall onto the material placing plate, and therefore automatic lamination of the silicon steel sheets is completed. Therefore, the utility model provides a lamination device can realize the automatic lamination of silicon steel sheet, improves production efficiency.
According to some embodiments of the present invention, the device further comprises a height measurement unit, wherein the height measurement unit comprises a height measurement telescopic cylinder and a position sensor; the height measuring telescopic cylinder is used for driving the position sensor to move up and down; the position sensor is used for detecting the height of the silicon steel sheet.
According to some embodiments of the utility model, still include laser detector, be used for detecting the silicon steel sheet is in the position of magnetism conveyer belt.
According to some embodiments of the present invention, the pressing arm is in the shape of an elongated plate and is vertically disposed; the downward pressing drive comprises two downward pressing telescopic cylinders; the two downward-pressing telescopic cylinders are respectively arranged at the two longer ends of the material pressing arm and are used for driving the material pressing arm to move up and down.
According to some embodiments of the invention, the transfer drive comprises a first roller, a second roller, a rotating motor, a first gear, a second gear and a rack; the magnetic conveying belt is sleeved on the first rotating roller and the second rotating roller; the first gear is mounted on a rotating shaft of the first rotating roller, the second gear is mounted on the rotating motor, and the rack is meshed with the first gear and the second gear respectively.
According to the utility model discloses silicon steel sheet receives material equipment of second aspect embodiment, include: the material distributing device comprises a material distributing part, an upper material distributing conveyor belt and a lower material distributing conveyor belt; one end of the upper distributing conveyor belt and one end of the lower distributing conveyor belt are connected with the distributing piece; the material distributing piece is used for conveying the silicon steel sheets to the upper material distributing conveyor belt and the lower material distributing conveyor belt respectively; the utility model discloses the lamination device of first aspect embodiment, the quantity of lamination device is two; the two lamination devices are arranged in parallel up and down and are respectively connected with one ends, far away from the material distributing part, of the upper material distributing conveyor belt and the lower material distributing conveyor belt.
According to the utility model discloses silicon steel sheet receives material equipment of second aspect embodiment has following technological effect at least: when the silicon steel sheets are tightly attracted by the two magnetic conveying belts and are placed below the magnetic conveying belts, the magnetic conveying belts rotate, the silicon steel sheets are conveyed above the material placing plate, the material pressing arm presses the silicon steel sheets downwards, the silicon steel sheets are separated from the magnetic conveying belts and fall onto the material placing plate, and therefore automatic lamination of the silicon steel sheets is completed. In addition, the material distributing device is arranged, the upper laminating device and the lower laminating device feed materials simultaneously, the upper laminating device and the lower laminating device are laminated simultaneously, and the production efficiency is further improved. Therefore, the utility model provides a lamination device can realize the automatic lamination of silicon steel sheet, improves production efficiency.
According to some embodiments of the present invention, the support comprises a lower frame, the lower frame comprises two slide rails, an upper bracket, a lower bracket and a connecting column; the upper bracket and the lower bracket are arranged in parallel up and down and are respectively connected with two ends of the connecting column; the two discharging plates are respectively placed on the upper bracket and the lower bracket; the lower bracket is connected with the sliding rail in a sliding manner through a pulley.
According to some embodiments of the present invention, the lower bracket comprises a base, a plurality of rotating rails, and a plurality of material plate rotating rollers; the base is connected with the sliding rail in a sliding manner; the rotating track is arranged at the upper end of the base and is provided with a groove; two ends of the flitch rotating roller are connected with the side wall of the groove; the material placing plate is abutted to the material plate rotating roller and is slidably arranged on the blanking frame through the material plate rotating roller, wherein the length of the lower bracket is greater than that of the upper bracket.
Drawings
The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:
fig. 1 is a schematic view of a laminating device and a silicon steel sheet receiving device according to an embodiment of the present invention;
fig. 2 is a schematic view of a sheeting unit according to an embodiment of the present invention;
fig. 3 is a schematic view of the blanking frame according to the embodiment of the present invention.
Reference numerals:
a lamination device 100,
The device comprises a bracket 200, a blanking frame 210, a slide rail 211, an upper bracket 212, a lower bracket 213, a connecting column 214, a base 215, a rotating rail 216, a material plate rotating roller 217,
A conveying unit 300, a magnetic conveying belt 310, a first rotating roller 320,
A material placing plate 400,
A tablet pressing unit 500, a material pressing arm 510, a downward pressing driver 520, a downward pressing telescopic cylinder 521,
A height measuring unit 600,
A laser detector 700,
Silicon steel sheet receiving equipment 800,
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.
In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.
In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.
A lamination device 100 according to an embodiment of the present invention, and a silicon steel sheet receiving apparatus 800 using the lamination device 100 will be described with reference to fig. 1 and 3.
As shown in fig. 1, the lamination device 100 according to an embodiment of the present invention includes a support 200, a conveying unit 300, a discharging plate 400, and a pressing unit 500.
As shown in fig. 1, the conveying unit 300 is mounted on the bracket 200, and is used for sucking and conveying silicon steel sheets, and includes two magnetic conveyor belts 310 and a conveying drive, the two magnetic conveyor belts 310 are on the same horizontal plane and are in clearance fit, the conveying drive is used for driving the magnetic conveyor belts 310 to rotate, the discharge plate 400 is placed below the magnetic conveyor belts 310 and is used for placing silicon steel sheets, the pressing unit 500 is mounted on the bracket 200 and is used for pressing the silicon steel sheets downwards to enable the silicon steel sheets to fall from the magnetic conveyor belts 310 to the discharge plate 400, the pressing unit 500 includes a pressing arm 510 and a pressing drive 520, the pressing arm 510 is movably disposed in a gap between the two magnetic conveyor belts 310 and is disposed above the discharge plate 400, and the pressing drive 520 is used for driving the pressing arm 510 to move upwards and downwards, wherein the pressing arm 510 includes a first state and a second state, when the pressing arm 510 is in the first state, the lowest point of the swaging arm 510 is higher than the lower plane of the magnetic conveyor belt 310, and when the swaging arm 510 is in the second state, the lowest point of the swaging arm 510 is lower than the lower plane of the magnetic conveyor belt 310.
When the pressing arm 510 is located above the magnetic conveyor belts 310, two magnetic conveyor belts 310 simultaneously suck one silicon steel sheet, the silicon steel sheet is tightly sucked below the magnetic conveyor belts 310 and is conveyed to the upper side of the material discharging plate 400 along with the rotation of the magnetic conveyor belts 310, the pressing arm 510 moves downwards, a gap between the two magnetic conveyor belts 310 penetrates through the gap, the silicon steel sheet is in contact with the gap, downward pressure is applied to the silicon steel sheet, the silicon steel sheet is separated from the magnetic conveyor belts 310 and falls to the material discharging plate 400, and the operation is repeated, so that the automatic lamination of the silicon steel sheet is completed.
The utility model discloses lamination device 100 is inhaled tightly by two magnetism conveyer belts 310 when the silicon steel sheet to place in magnetism conveyer belt 310 below after, magnetism conveyer belt 310 rotates, transports the silicon steel sheet and puts flitch 400 top after, presses the silicon steel sheet downwards of material arm 510, makes the silicon steel sheet break away from magnetism conveyer belt 310, falls down on the flitch 400, thereby accomplishes the automatic lamination of silicon steel sheet. Therefore, the utility model provides a lamination device 100 can realize the automatic lamination of silicon steel sheet, improves production efficiency.
In some embodiments of the present invention, the height measuring unit 600 further comprises a height measuring unit 600, the height measuring unit 600 comprises a height measuring telescopic cylinder and a position sensor, and the height measuring telescopic cylinder is used for driving the position sensor to move up and down; the position sensor is used for detecting the height of the silicon steel sheet. The thickness of the silicon steel sheets is measured through the height measuring unit 600, so that the silicon steel sheets can be discharged in time when the number of the silicon steel sheets reaches a set value, and the production efficiency is improved.
In some embodiments of the present invention, the present invention further comprises a laser detector 700 for detecting the position of the silicon steel sheet on the magnetic conveyor 310. Install laser detector 700 additional and detect the silicon steel sheet position, can improve the precision that the silicon steel sheet stacked to improve the product percent of pass.
In some embodiments of the utility model, as shown in fig. 2, press the material arm 510 to be microscler platelike to vertical setting, push down the drive 520 including two telescopic cylinder 521 that push down, two telescopic cylinder 521 that push down are installed respectively in the longer both ends of pressing the material arm 510, are used for driving the material arm 510 and reciprocate. The long plate-shaped material pressing arm 510 is adopted, the length of the material pressing arm 510 is increased, and a plurality of silicon steel sheets can be pressed down at one time, so that the production efficiency is improved.
In some embodiments of the present invention, the transmission drive comprises a first rotating roller 320, a second rotating roller, a rotating motor, a first gear, a second gear and a rack; the magnetic transmission belt 310 is sleeved on the first rotating roller 320 and the second rotating roller; the first gear is installed on the rotating shaft of the first rotating roller 320, the second gear is installed on the rotating motor, and the rack is respectively meshed with the first gear and the second gear. The meshing transmission is simple in structure and convenient to maintain.
As shown in fig. 1, the utility model discloses silicon steel sheet material collecting equipment 800 of second aspect embodiment includes: feed divider 900 and lamination device 100 according to embodiments of the first aspect of the present invention.
As shown in fig. 1, the material distribution device 900 includes the material distribution part 910, the material distribution conveyer belt 920 and the material distribution conveyer belt 930 down, the one end of the material distribution conveyer belt 920 and the one end of the material distribution conveyer belt 930 down are connected with the material distribution part 910, the material distribution part 910 is used for conveying the silicon steel sheet to the material distribution conveyer belt 920 and the material distribution conveyer belt 930 down respectively, the utility model discloses the lamination device 100 of the first aspect embodiment, the quantity of lamination device 100 is two, two lamination devices 100 parallel arrangement from top to bottom to be connected with the one end of keeping away from the material distribution part 910 of the material distribution conveyer belt 920 and the material distribution conveyer belt 930 down respectively.
The two magnetic conveyor belts 310 are respectively connected with the material distribution device 900, so that the silicon steel sheets can be simultaneously conveyed to the two magnetic conveyor belts 310. When the pressing arm 510 is located above the magnetic conveyor belts 310, two magnetic conveyor belts 310 simultaneously suck one silicon steel sheet, the silicon steel sheet is tightly sucked below the magnetic conveyor belts 310 and is conveyed to the upper side of the material discharging plate 400 along with the rotation of the magnetic conveyor belts 310, the pressing arm 510 moves downwards, a gap between the two magnetic conveyor belts 310 penetrates through the gap, the silicon steel sheet is in contact with the gap, downward pressure is applied to the silicon steel sheet, the silicon steel sheet is separated from the magnetic conveyor belts 310 and falls to the material discharging plate 400, and the operation is repeated, so that the automatic lamination of the silicon steel sheet is completed.
The utility model discloses the silicon steel sheet of second aspect embodiment receives material equipment 800, through adopting the utility model discloses the lamination device 100 of first aspect embodiment is inhaled tightly by two magnetic conveyor 310 when the silicon steel sheet to place behind magnetic conveyor 310 below, magnetic conveyor 310 rotates, transports the silicon steel sheet and puts flitch 400 top after, presses the material arm 510 to push down the silicon steel sheet, makes the silicon steel sheet break away from magnetic conveyor 310, falls on the flitch 400, thereby accomplishes the automatic lamination of silicon steel sheet. In addition, the material distributing device 900 is arranged, the upper laminating device 100 and the lower laminating device 100 feed materials simultaneously, the upper laminating device 100 and the lower laminating device 100 laminate simultaneously, and the production efficiency is further improved. In addition, the material distributing device 900 is arranged, the upper laminating device 100 and the lower laminating device 100 feed materials simultaneously, the upper laminating device 100 and the lower laminating device 100 laminate simultaneously, and the production efficiency is further improved. Therefore, the utility model provides a lamination device 100 can realize the automatic lamination of silicon steel sheet, improves production efficiency.
In some embodiments of the present invention, as shown in fig. 3, the support 200 includes a lower rack 210, the lower rack 210 includes two slide rails 211, an upper bracket 212, a lower bracket 213 and a connection column 214, the upper bracket 212 and the lower bracket 213 are arranged in parallel up and down, and are respectively connected to two ends of the connection column 214, two material placing plates 400 are respectively placed on the upper bracket 212 and the lower bracket 213, and the lower bracket 213 is slidably connected to the slide rails 211 through pulleys. Add slide rail 211, make things convenient for the unloading of blowing board 400 to improve production efficiency.
In some embodiments of the present invention, as shown in fig. 3, the lower bracket 213 includes a base 215, a plurality of rotating tracks 216 and a plurality of material plates rotating rollers 217, the base 215 is slidably connected to the sliding rails 211, the rotating tracks 216 are disposed on the upper end of the base 215 and are provided with grooves, two ends of the material plates rotating rollers 217 are connected to the side walls of the grooves, the material placing plate 400 is abutted to the material plates rotating rollers 217 and slidably disposed on the lower bracket through the material plates rotating rollers 217, wherein the length of the lower bracket 213 is greater than that of the upper bracket 212. The length of the lower bracket 213 is longer than that of the upper bracket 212, and the material plate rotating roller 217 is arranged on the lower bracket 213, so that the material plate 400 can be conveniently taken and placed below, and the operation convenience is improved.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like 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 present invention. 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.
While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.
Claims (8)
1. A lamination assembly, comprising:
a support;
the conveying unit is arranged on the bracket, is used for sucking and conveying silicon steel sheets, and comprises two magnetic conveying belts and a conveying drive; the two magnetic conveyor belts are on the same horizontal plane and are in clearance fit; the transmission drive is used for driving the magnetic transmission belt to rotate;
the discharging plate is placed below the magnetic conveying belt and used for placing the silicon steel sheets;
the sheet pressing unit is arranged on the bracket and used for pressing the silicon steel sheets downwards so as to enable the silicon steel sheets to fall to the material discharging plate from the magnetic conveying belt; the tabletting unit comprises a material pressing arm and a pressing drive; the material pressing arm can be arranged in a gap between the two magnetic conveyor belts in a vertically movable mode and is arranged above the material discharging plate; the pressing drive is used for driving the pressing arm to move up and down;
the material pressing arm comprises a first state and a second state; when the pressing arm is in the first state, the lowest point of the pressing arm is higher than the lower plane of the magnetic conveyor belt; when the pressing arm is in the second state, the lowest point of the pressing arm is lower than the lower plane of the magnetic conveyor belt.
2. The lamination device according to claim 1, further comprising a height measuring unit comprising a height measuring telescopic cylinder and a position sensor; the height measuring telescopic cylinder is used for driving the position sensor to move up and down; the position sensor is used for detecting the height of the silicon steel sheet.
3. The laminating device according to claim 1, further comprising a laser detector for detecting the position of the silicon steel sheet on the magnetic conveyor belt.
4. The lamination device according to claim 1, wherein the swage arm is elongated plate-shaped and vertically disposed; the downward pressing drive comprises two downward pressing telescopic cylinders; the two downward-pressing telescopic cylinders are respectively arranged at the two longer ends of the material pressing arm and are used for driving the material pressing arm to move up and down.
5. The laminating device according to claim 1, wherein the conveying drive comprises a first rotary roller, a second rotary roller, a rotary motor, a first gear, a second gear and a rack; the magnetic conveying belt is sleeved on the first rotating roller and the second rotating roller; the first gear is mounted on a rotating shaft of the first rotating roller, the second gear is mounted on the rotating motor, and the rack is meshed with the first gear and the second gear respectively.
6. Silicon steel sheet receives material equipment, its characterized in that includes:
the material distributing device comprises a material distributing part, an upper material distributing conveyor belt and a lower material distributing conveyor belt; one end of the upper distributing conveyor belt and one end of the lower distributing conveyor belt are connected with the distributing piece; the material distributing piece is used for conveying the silicon steel sheets to the upper material distributing conveyor belt and the lower material distributing conveyor belt respectively;
a lamination arrangement according to any one of claims 1 to 5, which is two in number; the two lamination devices are arranged in parallel up and down and are respectively connected with one ends, far away from the material distributing part, of the upper material distributing conveyor belt and the lower material distributing conveyor belt.
7. The silicon steel sheet receiving equipment as claimed in claim 6, wherein the support comprises a blanking frame, and the blanking frame comprises two slide rails, an upper bracket, a lower bracket and a connecting column; the upper bracket and the lower bracket are arranged in parallel up and down and are respectively connected with two ends of the connecting column; the two discharging plates are respectively placed on the upper bracket and the lower bracket; the lower bracket is connected with the sliding rail in a sliding manner through a pulley.
8. The silicon steel sheet receiving equipment as claimed in claim 7, wherein the lower bracket comprises a base, a plurality of rotating rails and a plurality of material plate rotating rollers; the base is connected with the sliding rail in a sliding manner; the rotating track is arranged at the upper end of the base and is provided with a groove; two ends of the flitch rotating roller are connected with the side wall of the groove; the material placing plate is abutted to the material plate rotating roller and is slidably arranged on the blanking frame through the material plate rotating roller, wherein the length of the lower bracket is greater than that of the upper bracket.
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CN202023350704.1U CN214692168U (en) | 2020-12-31 | 2020-12-31 | Lamination device and silicon steel sheet receiving equipment |
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CN202023350704.1U CN214692168U (en) | 2020-12-31 | 2020-12-31 | Lamination device and silicon steel sheet receiving equipment |
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CN214692168U true CN214692168U (en) | 2021-11-12 |
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