CN108407060B - Automatic glazing production line for magnetic cores - Google Patents
Automatic glazing production line for magnetic cores Download PDFInfo
- Publication number
- CN108407060B CN108407060B CN201810374479.3A CN201810374479A CN108407060B CN 108407060 B CN108407060 B CN 108407060B CN 201810374479 A CN201810374479 A CN 201810374479A CN 108407060 B CN108407060 B CN 108407060B
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- Prior art keywords
- glaze
- automatic
- frame
- sliding rail
- sliding block
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- 238000004519 manufacturing process Methods 0.000 title claims abstract description 20
- 238000007598 dipping method Methods 0.000 claims description 32
- 238000001179 sorption measurement Methods 0.000 claims description 32
- 230000005540 biological transmission Effects 0.000 claims description 19
- 239000011248 coating agent Substances 0.000 claims description 5
- 238000000576 coating method Methods 0.000 claims description 5
- 238000003825 pressing Methods 0.000 claims description 3
- 210000001503 joint Anatomy 0.000 claims description 2
- 239000000696 magnetic material Substances 0.000 claims description 2
- 208000032370 Secondary transmission Diseases 0.000 claims 2
- 238000001035 drying Methods 0.000 abstract description 17
- 238000010521 absorption reaction Methods 0.000 description 6
- 238000000034 method Methods 0.000 description 6
- 238000012423 maintenance Methods 0.000 description 4
- 238000010981 drying operation Methods 0.000 description 2
- 239000004020 conductor Substances 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B11/00—Apparatus or processes for treating or working the shaped or preshaped articles
- B28B11/04—Apparatus or processes for treating or working the shaped or preshaped articles for coating or applying engobing layers
- B28B11/044—Apparatus or processes for treating or working the shaped or preshaped articles for coating or applying engobing layers with glaze or engobe or enamel or varnish
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B11/00—Apparatus or processes for treating or working the shaped or preshaped articles
- B28B11/04—Apparatus or processes for treating or working the shaped or preshaped articles for coating or applying engobing layers
- B28B11/049—Recycling of the coating material
Abstract
The invention discloses an automatic glazing production line of a magnetic core, which comprises a frame, wherein a main driving belt and a driving device thereof are arranged on the frame, an automatic feeding station, an automatic glazing station and an automatic drying station are sequentially arranged on the frame along the conveying direction of the main driving belt, the automatic feeding station is provided with an automatic feeding device for conveying the magnetic core to the main driving belt, the automatic glazing station is provided with an automatic glazing device for glazing the magnetic core on the main driving belt, the automatic glazing station is provided with an automatic glazing device for removing redundant glaze on the upper surface of the magnetic core, and the automatic drying station is provided with an automatic drying device for drying the magnetic core after glazing; the invention can sequentially finish the work of feeding, glazing, removing glaze and drying, has high automation degree, can adapt to the glazing work of magnetic cores of different models and specifications, and has the advantages of compact structure, small equipment occupation area and high working efficiency.
Description
[ field of technology ]
The invention relates to automatic production equipment for producing magnetic cores, in particular to an automatic glazing production line for magnetic cores.
[ background Art ]
The magnetic core is widely applied to coils and transformers of various electronic equipment, the quality of the magnetic core directly influences the performance of the coils and transformers, a layer of glaze is coated on the outer surface of the magnetic core to protect the magnetic core in order to improve the durability of the magnetic core, and the work efficiency is low and the uniformity of the quality is difficult to ensure by manually coating the glaze on the surface of the magnetic core in the prior art.
The invention is researched and proposed for overcoming the defects of the prior art.
[ invention ]
The invention aims to solve the technical problem of providing an automatic glazing production line for magnetic cores, which can sequentially complete the work of feeding, glazing, removing glaze and drying by an automatic feeding device, an automatic glazing device, an automatic removing glaze device and an automatic drying device which are sequentially arranged along the conveying direction of a main driving belt, has high automation degree, can adapt to the glazing work of magnetic cores with different types and specifications, and has the advantages of compact structure, small equipment occupation area and high working efficiency.
In order to solve the technical problems, the automatic glazing production line of the magnetic core comprises a frame, wherein a main driving belt and a driving device thereof are arranged on the frame, an automatic feeding station, an automatic glazing station, an automatic glaze removing station and an automatic drying station are sequentially arranged on the frame along the conveying direction of the main driving belt, an automatic feeding device for conveying the magnetic core to the main driving belt is arranged on the automatic feeding station, an automatic glazing device for glazing the magnetic core on the main driving belt is arranged on the automatic glazing station, an automatic glaze removing device for removing redundant glaze on the upper surface of the magnetic core is arranged on the automatic glaze removing station, and an automatic drying device for drying the magnetic core after glaze removal is arranged on the automatic drying station.
The automatic glazing production line for the magnetic core comprises a box body arranged on one side of a main transmission belt and used for containing glaze, a first transfer device is arranged on the machine frame, a glaze dipping component used for dipping the glaze in the box body and coating the glaze on the magnetic core is arranged on the execution end of the first transfer device, the glaze dipping component comprises a glaze dipping frame arranged on the execution end of the first transfer device, and a glaze dipping sponge used for dipping the glaze is arranged at the lower end of the glaze dipping frame.
The automatic glazing production line for the magnetic cores comprises a first horizontal sliding rail arranged on a rack along the horizontal direction, wherein the first horizontal sliding rail is connected with a first horizontal sliding block in a sliding manner, a first horizontal driving device for driving the first horizontal sliding block to slide on the first horizontal sliding rail is further arranged on the rack, a first vertical sliding rail is vertically arranged on the first horizontal sliding block, a first vertical sliding block is connected with the first vertical sliding rail in a sliding manner, a first vertical driving device for driving the first vertical sliding block to slide along the first vertical sliding rail is arranged on the first vertical sliding rail, and a glaze dipping frame is arranged on the first vertical sliding block.
The automatic glazing production line for the magnetic core comprises a sponge fixing frame arranged on the other side of the main transmission belt and provided with a glaze absorbing sponge, a second transferring device arranged on the frame, a glaze removing assembly used for absorbing and transferring redundant glaze on the magnetic core on the main transmission belt to the glaze absorbing sponge is arranged at the execution end of the second transferring device, the glaze removing assembly comprises a glaze removing frame arranged at the execution end of the second transferring device, and the lower end of the glaze removing frame is provided with the glaze removing sponge used for absorbing the redundant glaze on the magnetic core.
The automatic glazing production line for the magnetic cores comprises a second horizontal sliding rail arranged on a rack along the horizontal direction, wherein the second horizontal sliding rail is connected with a second horizontal sliding block in a sliding manner, a second horizontal driving device for driving the second horizontal sliding block to slide on the second horizontal sliding rail is further arranged on the rack, a second vertical sliding rail is vertically arranged on the second horizontal sliding block, a second vertical sliding block is connected with the second vertical sliding rail in a sliding manner, a second vertical driving device for driving the second vertical sliding block to slide along the second vertical sliding rail is arranged on the second vertical sliding rail, and a glaze removing frame is arranged on the second vertical sliding block.
The automatic glazing production line for the magnetic cores comprises the vibration feeding disc arranged at the front end of the main transmission belt, the vibration feeding disc is connected with the guide rail for conveying the magnetic cores, the auxiliary transmission belt and the driving device thereof are arranged on one side of the guide rail, the rack is further provided with the third transferring device for transferring the magnetic cores conveyed on the auxiliary transmission belt onto the main transmission belt, and the executing end of the third transferring device is provided with the magnetic adsorption device capable of adsorbing the magnetic cores.
The automatic glazing production line for the magnetic core is characterized in that a magnetic core stopping device is arranged between the tail end of the guide rail and the auxiliary transmission belt, the magnetic core stopping device comprises a stopping seat which is arranged on the frame and is in butt joint with the guide rail, a stopping cylinder is arranged on the stopping seat, and a pressing block for temporarily fixing the magnetic core on the stopping seat is arranged at the executing end of the stopping cylinder.
The automatic glazing production line for the magnetic cores comprises a third horizontal sliding rail arranged on a frame along the horizontal direction, wherein the third horizontal sliding rail is connected with a third horizontal sliding block in a sliding manner, a third horizontal driving device for driving the third horizontal sliding block to slide on the third horizontal sliding rail is further arranged on the frame, a third vertical sliding rail is vertically arranged on the third horizontal sliding block, a third vertical sliding block is connected with the third vertical sliding rail in a sliding manner, a third vertical driving device for driving the third vertical sliding block to slide along the third vertical sliding rail is arranged on the third vertical sliding rail, and the magnetic adsorption device is arranged on the third vertical sliding block.
The magnetic adsorption device is an electromagnet arranged at the execution end of the third transfer device.
The automatic glazing production line for the magnetic cores comprises the magnetic adsorption frame arranged at the execution end of the third transfer device, wherein the lower end of the adsorption frame is provided with the adsorption seat made of the non-magnetic conductive material, the adsorption frame is provided with the adsorption cylinder, and the execution end of the adsorption cylinder is provided with the magnet which can be close to or far away from the adsorption seat.
Compared with the prior art, the invention has the following advantages:
1. according to the automatic feeding device, the automatic glazing device, the automatic glaze removing device and the automatic drying device which are sequentially arranged along the conveying direction of the main driving belt, the feeding, glazing, glaze removing and drying operations can be sequentially completed, the automatic degree is high, the automatic feeding device can adapt to glazing operations of magnetic cores of different types and specifications, and the automatic feeding device has the advantages of compact structure, small occupied area of equipment and high working efficiency.
2. The automatic feeding device, the automatic glazing device and the automatic glaze removing device have the advantages of simple structure, fewer working steps and easy maintenance.
[ description of the drawings ]
The invention is described in further detail below with reference to the attached drawing figures, wherein:
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a top view of the present invention;
FIG. 3 is a schematic view of a hidden operation panel according to the present invention;
FIG. 4 is an enlarged view of portion A marked in FIG. 3;
fig. 5 is an enlarged view of a portion B marked in fig. 3.
[ detailed description ] of the invention
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.
As shown in fig. 1 to 5, an automatic glazing production line for a magnetic core of the present embodiment includes a frame 1, the frame 1 is provided with a main driving belt 2 and a driving device thereof, the frame 1 is sequentially provided with an automatic feeding station G01, an automatic glazing station G02, an automatic glazing station G03 and an automatic drying station G04 along a conveying direction of the main driving belt 2, the automatic feeding station G01 is provided with an automatic feeding device 3 for conveying the magnetic core onto the main driving belt 2, the automatic glazing station G02 is provided with an automatic glazing device 4 for glazing the magnetic core on the main driving belt 2, the automatic glazing station G03 is provided with an automatic glazing device 5 for removing redundant glaze on the upper surface of the magnetic core, and the automatic drying station G04 is provided with an automatic drying device 6 for drying the magnetic core after glazing; according to the automatic feeding device, the automatic glazing device, the automatic glaze removing device and the automatic drying device which are sequentially arranged along the conveying direction of the main driving belt, the feeding, glazing, glaze removing and drying operations can be sequentially completed, the automation degree is high, the automatic feeding device can adapt to glazing operations of magnetic cores of different types and specifications, and the automatic feeding device has the advantages of compact structure, small occupied area of equipment and high working efficiency.
As shown in fig. 3 and 5, the automatic glazing device 4 is used for applying the glaze in the box 41 to the magnetic upper surface of the main belt 2; the automatic glazing device 4 comprises a box body 41 arranged on one side of the main transmission belt 2 and used for containing glaze, a first transferring device 42 is arranged on the machine frame 1, a glaze dipping component 43 used for dipping the glaze in the box body 41 and coating the glaze on a magnetic core is arranged on the execution end of the first transferring device 42, the glaze dipping component 43 comprises a glaze dipping frame 431 arranged on the execution end of the first transferring device 42, and a glaze dipping sponge 432 used for dipping the glaze is arranged at the lower end of the glaze dipping frame 431. The automatic glazing device 4 has the advantages of simple structure, fewer working steps and easy maintenance.
The working process of the automatic enamelling device 4 will now be briefly described:
initial state: the glaze dipping component 43 is positioned right above the box body 41;
the first step: the glaze dipping component 43 moves downwards under the action of the first transfer device 42 until the glaze dipping sponge 432 contacts the glaze in the box body 41;
and a second step of: the glaze dipping component 43 moves upwards under the action of the first transfer device 42 and then moves horizontally to the position right above the main transmission belt 2;
and a third step of: the glaze dipping component 43 moves downwards under the action of the first transfer device 42 until the glaze dipping sponge 432 is completely contacted with the magnetic core on the main transmission belt 2, and the glaze on the glaze dipping sponge 432 is coated on the upper surface of the magnetic core in the contact process, so that the coating of the glaze is completed;
fourth step: and resetting and returning to the initial position along the original path.
The first transferring device 42 is used for transferring the dipping glaze component 43 in the horizontal direction and the vertical direction, and has the following specific structure: the first transfer device 42 comprises a first horizontal sliding rail 421 arranged on the frame 1 along the horizontal direction, the first horizontal sliding rail 421 is connected with a first horizontal sliding block 422 in a sliding manner, a first horizontal driving device 423 for driving the first horizontal sliding block 422 to slide on the first horizontal sliding rail 421 is further arranged on the frame 1, a first vertical sliding rail 424 is vertically arranged on the first horizontal sliding block 422, a first vertical sliding block 425 is connected with the first vertical sliding rail 424 in a sliding manner, a first vertical driving device 426 for driving the first vertical sliding block 425 to slide along the first vertical sliding rail 424 is arranged on the first vertical sliding rail 424, and the glaze dipping frame 431 is arranged on the first vertical sliding block 425.
As shown in fig. 3 and 5, the automatic glaze removing device 5 is used for sucking away the excessive glaze on the magnetic upper surface of the main driving belt 2 so as to achieve uniform and unified thickness of the glaze on the upper surface of the magnetic core, the automatic glaze removing device 5 comprises a sponge fixing frame 52 arranged on the other side of the main driving belt 2 and provided with a glaze absorbing sponge 521, so that the second transferring device 51 on the frame 1 is provided with a glaze removing component 53 for absorbing and transferring the excessive glaze on the magnetic core on the main driving belt 2 onto the glaze absorbing sponge 521, the glaze removing component 53 comprises a glaze removing frame 531 arranged on the executing end of the second transferring device 51, and the lower end of the glaze removing frame 531 is provided with a glaze removing sponge 532 for absorbing the excessive glaze on the magnetic core. The automatic glaze removing device 5 has the advantages of simple structure, fewer working steps and easy maintenance.
The working process of the automatic stripping device 5 will now be briefly described:
initial state: the stripping assembly 53 is positioned directly above the glaze suction sponge 521;
the first step: the glaze removing component 53 horizontally moves to the position right above the main transmission belt 2 under the action of the second transfer device 51;
and a second step of: the glaze removing component 53 moves downwards under the action of the second transfer device 51 until the glaze removing sponge 532 is in full contact with the magnetic core on the main transmission belt 2, and the glaze removing sponge 532 sucks the redundant glaze on the upper surface of the magnetic core in the contact process;
and a third step of: the glaze removing component 53 moves upwards under the action of the second transfer device 51 and then moves horizontally to an initial state;
fourth step: the glaze removing component 53 moves downwards under the action of the second transfer device 51 until the glaze removing sponge 532 contacts with the glaze absorbing sponge 521, and in the contact process, the glaze absorbed by the glaze removing sponge 532 is transferred to the glaze absorbing sponge 521;
fifth step: and resetting and returning to the initial state along the original path.
The second transferring device 51 is used for transferring the glaze removing component 53 in the horizontal direction and the vertical direction, and has the following specific structure: the second transfer device 51 comprises a second horizontal sliding rail 511 arranged on the frame 1 along the horizontal direction, a second horizontal sliding block 512 is connected to the second horizontal sliding rail 511 in a sliding manner, a second horizontal driving device 513 for driving the second horizontal sliding block 512 to slide on the second horizontal sliding rail 511 is further arranged on the frame 1, a second vertical sliding rail 514 is vertically arranged on the second horizontal sliding block 512, a second vertical sliding block 515 is connected to the second vertical sliding rail 514 in a sliding manner, a second vertical driving device 516 for driving the second vertical sliding block 515 to slide along the second vertical sliding rail 514 is arranged on the second vertical sliding rail 514, and the glaze removing frame 531 is arranged on the second vertical sliding block 515.
As shown in fig. 3 and 4, the automatic feeding device 3 is used for conveying scattered magnetic cores onto the main driving belt 2 one by one, the automatic feeding device 3 comprises a vibration feeding disc 31 arranged at the front end of the main driving belt 2, the vibration feeding disc 31 is connected with a guide rail 32 for conveying the magnetic cores, one side of the guide rail 32 is provided with a secondary driving belt 33 and a driving device thereof, the frame 1 is also provided with a third transferring device 34 for transferring the magnetic cores conveyed on the secondary driving belt 33 onto the main driving belt 2, the execution end of the third transferring device 34 is provided with a magnetic adsorption device 35 capable of adsorbing the magnetic cores, and the magnetic adsorption device 35 adsorbs the magnetic cores on the secondary driving belt 33 under the action of the third transferring device 34 and then releases the magnetic cores onto the main driving belt 2. The automatic feeding device 3 has the advantages of simple structure, fewer working steps and easy maintenance.
In order to facilitate the magnetic attraction of the magnetic core on the secondary belt 33 by the magnetic attraction means 35, it is preferable to stop the magnetic core transported on the guide rail 32 briefly during this process; for this purpose, a core stop device 36 is provided between the end of the guide rail 32 and the auxiliary belt 33, the core stop device 36 comprises a stop seat 361 provided on the frame 1 and abutting against the guide rail 32, a stop cylinder 362 is provided on the stop seat 361, and a pressing block 363 for temporarily fixing the core on the stop seat 361 is provided on the execution end of the stop cylinder 362.
The third transfer device 34 is used for transferring the magnetic adsorption device 35 in the horizontal direction and the vertical direction, the third transfer device 34 comprises a third horizontal sliding rail 341 arranged on the frame 1 along the horizontal direction, the third horizontal sliding rail 341 is connected with a third horizontal sliding block 342 in a sliding manner, a third horizontal driving device 343 for driving the third horizontal sliding block 342 to slide on the third horizontal sliding rail 341 is further arranged on the frame 1, a third vertical sliding rail 344 is vertically arranged on the third horizontal sliding block 342, a third vertical sliding block 345 is connected onto the third vertical sliding rail 344 in a sliding manner, a third vertical driving device 346 for driving the third vertical sliding block 345 to slide along the third vertical sliding rail 344 is arranged on the third vertical sliding rail 344, and the magnetic adsorption device 35 is arranged on the third vertical sliding block 345.
The magnetic attraction device 35 may select an electromagnet according to actual needs, and the electromagnet is disposed at the execution end of the third transfer device 34. As shown in fig. 3 and 4, in the present embodiment, the magnetic adsorption device 35 includes an adsorption frame 351 disposed at an execution end of the third transfer device 34, an adsorption seat 352 made of a non-magnetic material is disposed at a lower end of the adsorption frame 351, an adsorption cylinder 353 is disposed on the adsorption frame 351, and a magnet 354 capable of approaching or separating from the adsorption seat 352 is disposed at an execution end of the adsorption cylinder 353; when the magnetic core needs to be absorbed, the magnet 354 is close to the absorption seat 352 through the absorption cylinder 353, so that the magnetic core can be absorbed on the absorption seat 352, and when the magnetic core on the absorption seat 352 needs to be released, the magnet 354 is far away from the absorption seat 352 through the absorption cylinder 353.
Claims (6)
1. The utility model provides an automatic glazing production line of magnetic core, its characterized in that includes frame (1), frame (1) on be equipped with main drive belt (2) and drive arrangement thereof, frame (1) and be equipped with automatic feeding station (G01), automatic glazing station (G02), automatic glazing station (G03) and automatic stoving station (G04) in proper order along the direction of delivery of main drive belt (2), automatic feeding station (G01) on be equipped with be used for carrying the magnetic core to main drive belt (2) on automatic feeding device (3), automatic glazing station (G02) on be equipped with on the magnetic core to main drive belt (2) on automatic glazing device (4), automatic glazing station (G03) on be equipped with on the magnetic core with unnecessary glaze removal automatic glazing device (5), automatic stoving station (G04) on be equipped with on the automatic stoving device (6) to accomplish the magnetic core that removes glaze; the automatic glazing device (4) comprises a box body (41) arranged on one side of a main transmission belt (2) and used for containing glaze, a first transferring device (42) is arranged on the frame (1), a glaze dipping component (43) used for dipping the glaze in the box body (41) and coating the glaze on a magnetic core is arranged on the execution end of the first transferring device (42), the glaze dipping component (43) comprises a glaze dipping frame (431) arranged at the execution end of the first transferring device (42), and a glaze dipping sponge (432) used for dipping the glaze is arranged at the lower end of the glaze dipping frame (431); the first transfer device (42) comprises a first horizontal sliding rail (421) arranged on the frame (1) along the horizontal direction, the first horizontal sliding rail (421) is connected with a first horizontal sliding block (422) in a sliding manner, the frame (1) is also provided with a first horizontal driving device (423) for driving the first horizontal sliding block (422) to slide on the first horizontal sliding rail (421), the first horizontal sliding block (422) is vertically provided with a first vertical sliding rail (424), the first vertical sliding rail (424) is connected with a first vertical sliding block (425) in a sliding manner, the first vertical sliding rail (424) is provided with a first vertical driving device (426) for driving the first vertical sliding block (425) to slide along the first vertical sliding rail (424), and the glaze dipping frame (431) is arranged on the first vertical sliding block (425); the automatic glaze removing device (5) comprises a sponge fixing frame (52) which is arranged on the other side of the main transmission belt (2) and is provided with a glaze absorbing sponge (521), a second transferring device (51) is arranged on the rack (1), the execution end of the second transferring device (51) is provided with a glaze removing component (53) which is used for absorbing and transferring redundant glaze on a magnetic core on the main transmission belt (2) onto the glaze absorbing sponge (521), the glaze removing component (53) comprises a glaze removing frame (531) which is arranged on the execution end of the second transferring device (51), and the lower end of the glaze removing frame (531) is provided with a glaze removing sponge (532) which is used for absorbing redundant glaze on the magnetic core; the second transfer device (51) comprises a second horizontal sliding rail (511) arranged on the frame (1) along the horizontal direction, the second horizontal sliding rail (511) is connected with a second horizontal sliding block (512) in a sliding manner, the frame (1) is further provided with a second horizontal driving device (513) for driving the second horizontal sliding block (512) to slide on the second horizontal sliding rail (511), the second horizontal sliding block (512) is vertically provided with a second vertical sliding rail (514), the second vertical sliding rail (514) is connected with a second vertical sliding block (515) in a sliding manner, the second vertical sliding rail (514) is provided with a second vertical driving device (516) for driving the second vertical sliding block (515) to slide along the second vertical sliding rail (514), and the glaze removing frame (531) is arranged on the second vertical sliding block (515).
2. The automatic glazing production line of magnetic cores according to claim 1, characterized in that the automatic feeding device (3) comprises a vibration feeding tray (31) arranged at the front end of the main transmission belt (2), the vibration feeding tray (31) is connected with a guide rail (32) for conveying the magnetic cores, one side of the guide rail (32) is provided with a secondary transmission belt (33) and a driving device thereof, the frame (1) is also provided with a third transferring device (34) for transferring the magnetic cores conveyed on the secondary transmission belt (33) onto the main transmission belt (2), and the execution end of the third transferring device (34) is provided with a magnetic adsorption device (35) capable of adsorbing the magnetic cores.
3. The automatic glazing production line for magnetic cores according to claim 2, characterized in that a magnetic core stopping device (36) is arranged between the tail end of the guide rail (32) and the auxiliary transmission belt (33), the magnetic core stopping device (36) comprises a stopping seat (361) which is arranged on the frame (1) and is in butt joint with the guide rail (32), the stopping seat (361) is provided with a stopping cylinder (362), and the execution end of the stopping cylinder (362) is provided with a pressing block (363) for temporarily fixing the magnetic core on the stopping seat (361).
4. The automatic glazing production line for magnetic cores according to claim 2, characterized in that the third transfer device (34) comprises a third horizontal sliding rail (341) arranged on the frame (1) along the horizontal direction, the third horizontal sliding rail (341) is connected with a third horizontal sliding block (342) in a sliding manner, a third horizontal driving device (343) for driving the third horizontal sliding block (342) to slide on the third horizontal sliding rail (341) is further arranged on the frame (1), a third vertical sliding rail (344) is vertically arranged on the third horizontal sliding block (342), a third vertical sliding block (345) is connected onto the third vertical sliding rail (344) in a sliding manner, a third vertical driving device (346) for driving the third vertical sliding block (345) to slide along the third vertical sliding rail (344) is arranged on the third vertical sliding rail (344), and the magnetic adsorption device (35) is arranged on the third vertical sliding block (345).
5. An automatic glazing line for magnetic cores according to any of the claims from 2 to 4, characterized in that said magnetic attraction means (35) are electromagnets provided at the execution end of the third transfer means (34).
6. An automatic glazing line for a magnetic core according to any of claims 2 to 4, characterized in that the magnetic adsorption device (35) comprises an adsorption frame (351) arranged at the execution end of the third transfer device (34), the lower end of the adsorption frame (351) is provided with an adsorption seat (352) made of a non-magnetic material, the adsorption frame (351) is provided with an adsorption cylinder (353), and the execution end of the adsorption cylinder (353) is provided with a magnet (354) which can be close to or far from the adsorption seat (352).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201810374479.3A CN108407060B (en) | 2018-04-24 | 2018-04-24 | Automatic glazing production line for magnetic cores |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201810374479.3A CN108407060B (en) | 2018-04-24 | 2018-04-24 | Automatic glazing production line for magnetic cores |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN108407060A CN108407060A (en) | 2018-08-17 |
| CN108407060B true CN108407060B (en) | 2023-10-03 |
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| CN201810374479.3A Active CN108407060B (en) | 2018-04-24 | 2018-04-24 | Automatic glazing production line for magnetic cores |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN110788985A (en) * | 2019-11-08 | 2020-02-14 | 宿州市众力保温节能材料股份有限公司 | Foam strip conveying device for grouting equipment |
| CN114474329B (en) * | 2022-01-24 | 2024-01-26 | 毛俊钦 | Production equipment capable of automatically removing ceramic glaze layer |
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| CN204097345U (en) * | 2014-10-13 | 2015-01-14 | 唐山桑莱斯陶瓷设备有限公司 | A kind of high efficient full automatic pottery two channels glazing production line |
| CN204390898U (en) * | 2014-12-26 | 2015-06-10 | 李开铭 | A kind of magnetic core automatic back gluer |
| CN204872580U (en) * | 2015-05-20 | 2015-12-16 | 天津松下电子部品有限公司 | Magnetic core permutation machine |
| CN205441861U (en) * | 2015-12-11 | 2016-08-10 | 深圳市康磁电子有限公司 | Automatic collating unit of magnetic core |
| CN205526462U (en) * | 2016-02-04 | 2016-08-31 | 深圳市海目星激光科技有限公司 | Magnetic core automatic feeding mechanism |
| CN205774154U (en) * | 2016-06-08 | 2016-12-07 | 九牧厨卫股份有限公司 | A kind of automatic glazing streamline of sanitaryware |
| CN205856329U (en) * | 2016-08-03 | 2017-01-04 | 唐山鼎欣专用设备制造有限公司 | The automatic glazing production line of domestic ceramics once-firing base substrate |
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| CN108407060A (en) | 2018-08-17 |
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Application publication date: 20180817 Assignee: XINFENG YANGGUANG MAGNETISM MATERIALS CO.,LTD. Assignor: XINFENG HONGYE ELECTRONICS Co.,Ltd. Contract record no.: X2023980049933 Denomination of invention: An automatic glazing production line for magnetic cores Granted publication date: 20231003 License type: Common License Record date: 20231204 |