CN212990825U - Automatic magnetizing equipment for 5G communication circulator/isolator - Google Patents
Automatic magnetizing equipment for 5G communication circulator/isolator Download PDFInfo
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- CN212990825U CN212990825U CN202022117845.2U CN202022117845U CN212990825U CN 212990825 U CN212990825 U CN 212990825U CN 202022117845 U CN202022117845 U CN 202022117845U CN 212990825 U CN212990825 U CN 212990825U
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- magnetizing
- slide rail
- tooling plate
- main shaft
- isolator
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Abstract
The utility model provides an automatic equipment of magnetizing of 5G communication circulator/isolator, automatic equipment of magnetizing of 5G communication circulator/isolator includes base (7) and installs the main shaft mechanism of magnetizer, magnetizer main shaft slide rail mechanism, frock board mechanism and the head mechanism of magnetizing on base (7), the head mechanism of magnetizing is in the middle of the main shaft mechanism of magnetizer with frock board mechanism; and the magnetizing machine main shaft mechanism moves on the magnetizing machine main shaft sliding rail mechanism, devices in the tooling plate mechanism are transferred to the magnetizing head mechanism for magnetizing, and after the magnetizing is finished, the devices are transferred to the tooling plate mechanism. The utility model discloses can realize full-automatic magnetization, magnetization direction and intensity are controllable, and the phenomenon that the magnet dress was anti-reverse when having avoided manual assembly is meanwhile, is showing and has increased assembly efficiency.
Description
Technical Field
The utility model belongs to 5G communication product field, concretely relates to automatic equipment of magnetizing of 5G communication circulator/isolator.
Background
The existing communication circulator/isolator is generally prepared by the following steps: the magnetized magnet is used as a raw material, and two ferrites and a central conductor are assembled. The method needs to distinguish the directions of the magnetic poles during assembly, and the assembly efficiency is low.
In view of the above, it is desirable to provide an automatic magnetizing apparatus for 5G communication circulator/isolator.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an automatic equipment of magnetizing of 5G communication circulator/isolator for thereby solve the lower technical problem of assembly efficiency that the magnet dress that circulator/isolator appears in the assembly in the prior art was reversed and is leaded to.
The utility model discloses a set up based on following condition: the magnet supplied materials of the utility model are not magnetized; the first ferrite, the central conductor and the second ferrite are prefabricated in advance by a production line; after the assembly is completed, an integral magnetizing mode is adopted, and the phenomenon that the magnetic field direction is abnormal due to the fact that the magnet is reversely arranged is avoided.
The purpose of the utility model is realized through the following technology:
the automatic magnetizing equipment for the 5G communication circulator/isolator comprises a base 7, and a magnetizing machine main shaft mechanism, a magnetizing machine main shaft sliding rail mechanism, a tooling plate mechanism and a magnetizing head mechanism which are arranged on the base 7, wherein the magnetizing head mechanism is arranged between the magnetizing machine main shaft mechanism and the tooling plate mechanism; and the magnetizing machine main shaft mechanism moves on the magnetizing machine main shaft sliding rail mechanism, devices in the tooling plate mechanism are transferred to the magnetizing head mechanism for magnetizing, and after the magnetizing is finished, the devices are transferred to the tooling plate mechanism.
Preferably, the main shaft sliding rail mechanism of the magnetizing apparatus comprises a first sliding rail mechanism and a second sliding rail mechanism, and the first sliding rail mechanism and the second sliding rail mechanism are arranged in parallel.
Preferably, the first slide rail mechanism includes a first mounting plate 411, a first support leg 41, a first slide rail beam 4111 and a first slide rail 4, and the first slide rail 4 is mounted on the first slide rail beam 4111; the first rail beam 4111 is mounted on the first mounting plate 411 through a first support leg 41.
Preferably, the second slide rail mechanism comprises a second mounting plate 511, a second support leg 51, a second slide rail beam 5111 and a second slide rail 5, and the second slide rail 5 is mounted on the second slide rail beam 5111; the second sliding rail beam 5111 is mounted on the second mounting plate 511 through a second supporting leg 51; the installation height of the second slide rail beam 5111 is the same as that of the first slide rail beam 4111.
Preferably, the main shaft mechanism of the magnetizing apparatus comprises a beam 61, a beam slide rail 6, a main shaft 1 of the magnetizing apparatus, a suction head 11, a cylinder 13 and a main shaft slide rail 14 of the magnetizing apparatus; the cross beam 61 is provided with a cross beam slide rail 6, a suction head 11 is connected below the magnetizer main shaft 1, and the cylinder 13 drives the magnetizer main shaft 1 and the suction head 11 to move up and down on the magnetizer main shaft slide rail 14; the main shaft 1 of the magnetizing apparatus is connected to the beam 61 and can move left and right along the beam slide rail 6.
Preferably, the suction heads 11 are arranged circumferentially below the magnetizer main shaft 1.
Preferably, the number of the suction heads 11 is 4.
Preferably, the spindle mechanism of the magnetizing apparatus further comprises a spring 12, and the spring 12 is mounted on a connecting rod of the cylinder 13 and plays a role in buffering the impact force of the cylinder 13.
Preferably, the cross beam 61 is connected to the first rail beam 4111 and the second rail beam 5111 and can move along the first rail 4 and the second rail 5.
Preferably, the first slide rail 4, the second slide rail 5 and the cross beam slide rail 6 are driven by a screw rod driven by a servo motor.
Preferably, the tooling plate mechanism comprises a tooling plate 3, a tooling plate cross beam 33, a tooling plate cross beam supporting leg 32 and a tooling plate mounting plate 31, wherein the tooling plate 3 is supported by the tooling plate cross beam 33, and the tooling plate cross beam 33 is mounted on the tooling plate mounting plate 31 through the tooling plate cross beam supporting leg 32; the tooling plate cross beam 33 and the cross beam 61 are arranged in parallel; the installation height of the tooling plate cross beam 33 is lower than that of the first slide rail beam 4111.
Preferably, the tooling plate mechanism further comprises a tooling plate positioning seat 34, the tooling plate positioning seat 34 is fixedly mounted on the tooling plate mounting plate 31, and the tooling plate positioning seat 34 can be matched with a groove 35 on the tooling plate 3, so as to position and fix the tooling plate 3.
Preferably, the head charging mechanism comprises a head charging base 2, a head charging cavity 21 and a charging lead 22; the magnetizing head cavity 21 is arranged on the upper surface of the magnetizing head base 2, and the magnetizing lead 22 is arranged at one end of the magnetizing head base 2 far away from the tooling plate beam 33; the device on the tooling plate 3 is moved into the head charging cavity 21 for charging.
Preferably, the first rail beam 4111 and the second rail beam 5111 are respectively located at the left and right sides of the tooling plate 3.
Preferably, the automatic magnetizing equipment for the 5G communication circulator/isolator further comprises a casing 8, and the casing 8 can wrap the magnetizing machine spindle mechanism, the magnetizing machine spindle sliding rail mechanism, the tooling plate mechanism and the magnetizing head mechanism.
Compared with the prior art, the beneficial effects of the utility model reside in that:
the utility model discloses can realize full-automatic magnetization, magnetization direction and intensity are controllable, and the phenomenon that the magnet dress was anti-reverse when having avoided manual assembly is meanwhile, is showing and has increased assembly efficiency.
Drawings
Fig. 1 is a perspective view of the automatic magnetizing apparatus for 5G communication circulator/isolator according to the present invention.
Fig. 2 is a schematic structural diagram of the automatic magnetizing apparatus for 5G communication circulator/isolator according to the present invention after the casing is removed.
Fig. 3 is a schematic structural diagram of another view angle of the automatic magnetizing apparatus for 5G communication circulator/isolator according to the present invention.
Fig. 4 is a schematic structural view of a spindle mechanism of a magnetizing apparatus of an automatic magnetizing apparatus for a 5G communication circulator/isolator according to the present invention.
Fig. 5 is a schematic view of a local structure of a spindle mechanism of a magnetizing apparatus of an automatic magnetizing apparatus for a 5G communication circulator/isolator according to the present invention.
Fig. 6 is a schematic view of a local structure of a tooling plate mechanism of an automatic magnetizing apparatus for a 5G communication circulator/isolator according to the present invention.
Detailed Description
The present invention will be further described with reference to the following examples and drawings, but the present invention is not limited thereto, and various modifications are included within the technical scope of the present invention.
Referring to fig. 1 and 2, a 5G communication circulator/isolator automatic magnetizing apparatus includes a housing 8, a base 7, and a magnetizing machine spindle mechanism, a magnetizing machine spindle slide rail mechanism, a tooling plate mechanism and a magnetizing head mechanism mounted on the base 7, wherein the magnetizing head mechanism is arranged between the magnetizing machine spindle mechanism and the tooling plate mechanism; and the magnetizing machine main shaft mechanism moves on the magnetizing machine main shaft sliding rail mechanism, devices in the tooling plate mechanism are transferred to the magnetizing head mechanism for magnetizing, and after the magnetizing is finished, the devices are transferred to the tooling plate mechanism. The shell 8 can wrap the magnetizer main shaft mechanism, the magnetizer main shaft sliding rail mechanism, the tooling plate mechanism and the magnetizer head mechanism. The devices on the tooling plate are not magnetized, and the first ferrite, the central conductor and the second ferrite are prefabricated in advance by a production line; and after the assembly is finished, the device on the tooling plate is obtained.
The main shaft sliding rail mechanism of the magnetizing apparatus comprises a first sliding rail mechanism and a second sliding rail mechanism, and the first sliding rail mechanism and the second sliding rail mechanism are arranged in parallel.
The first slide rail mechanism comprises a first mounting plate 411, a first support leg 41, a first slide rail beam 4111 and a first slide rail 4, wherein the first slide rail 4 is mounted on the first slide rail beam 4111; the first rail beam 4111 is mounted on the first mounting plate 411 through a first support leg 41.
The second slide rail mechanism comprises a second mounting plate 511, a second supporting leg 51, a second slide rail beam 5111 and a second slide rail 5, and the second slide rail 5 is mounted on the second slide rail beam 5111; the second sliding rail beam 5111 is mounted on the second mounting plate 511 through a second supporting leg 51; the installation height of the second slide rail beam 5111 is the same as that of the first slide rail beam 4111.
Referring to fig. 3-5, the main shaft mechanism of the magnetizing apparatus comprises a beam 61, a beam slide rail 6, a main shaft 1 of the magnetizing apparatus, a suction head 11, a cylinder 13 and a main shaft slide rail 14 of the magnetizing apparatus; the cross beam 61 is provided with a cross beam slide rail 6, a suction head 11 is connected below the magnetizer main shaft 1, and the cylinder 13 drives the magnetizer main shaft 1 and the suction head 11 to move up and down on the magnetizer main shaft slide rail 14; the main shaft 1 of the magnetizing apparatus is connected to the beam 61 and can move left and right along the beam slide rail 6.
The suction heads 11 are arranged below the main shaft 1 of the magnetizer and distributed circumferentially along the circumference.
The number of the suction heads 11 is 4.
The magnetizing apparatus spindle mechanism further comprises a spring 12, wherein the spring 12 is installed on a connecting rod of the cylinder 13 and plays a role in buffering impact force of the cylinder 13.
The cross beam 61 is connected to the first rail beam 4111 and the second rail beam 5111 and can move along the first rail 4 and the second rail 5.
The first slide rail 4, the second slide rail 5 and the beam slide rail 6 are driven by a lead screw driven by a servo motor.
The tooling plate mechanism comprises a tooling plate 3, a tooling plate beam 33, tooling plate beam supporting legs 32 and a tooling plate mounting plate 31, wherein the tooling plate 3 is supported by the tooling plate beam 33, and the tooling plate beam 33 is mounted on the tooling plate mounting plate 31 through the tooling plate beam supporting legs 32; the tooling plate cross beam 33 and the cross beam 61 are arranged in parallel; the installation height of the tooling plate cross beam 33 is lower than that of the first slide rail beam 4111.
The tooling plate mechanism further comprises a tooling plate positioning seat 34, the tooling plate positioning seat 34 is fixedly installed on the tooling plate mounting plate 31, and the tooling plate positioning seat 34 can be matched with a groove 35 on the tooling plate 3 so as to position and fix the tooling plate 3, which is shown in fig. 6.
The magnetic charging head mechanism comprises a magnetic charging head base 2, a magnetic charging head cavity 21 and a magnetic charging lead 22; the magnetizing head cavity 21 is arranged on the upper surface of the magnetizing head base 2, and the magnetizing lead 22 is arranged at one end of the magnetizing head base 2 far away from the tooling plate beam 33; the device on the tooling plate 3 is moved into the head charging cavity 21 for charging. The magnetizing lead 22 is used to magnetize the device.
The first slide rail beam 4111 and the second slide rail beam 5111 are respectively located on the left side and the right side of the tooling plate 3.
The working process of the automatic magnetizing equipment of the 5G communication circulator/isolator is as follows: the devices on the tooling plate 3 are not magnetized, and the first ferrite, the central conductor and the second ferrite are prefabricated in advance by a production line; and after the assembly is finished, the components on the tooling plate 3 are obtained. The first slide rail 4, the second slide rail 5 and the beam slide rail 6 are driven by a lead screw driven by a servo motor, the beam 61 moves along the first slide rail 4 and the second slide rail 5, and the cylinder 13 drives the magnetizer main shaft 1 and the sucker 11 to move up and down on the magnetizer main shaft slide rail 14; the magnetizing apparatus main shaft 1 is connected to the cross beam 61 and can move left and right along the cross beam slide rail 6, therefore, when the magnetizing apparatus main shaft 1 moves above the tooling plate 3, the suction head 11 can suck the devices on the tooling plate 3 and move into the magnetizing head cavity 21 by moving up and down, the devices are magnetized through the magnetizing lead 22, and after the magnetizing is finished, the suction head 11 sucks the devices again and transfers the devices into the tooling plate 3.
The invention is not limited solely to that described in the specification and the embodiments, and additional advantages and modifications will readily occur to those skilled in the art, and it is not intended to be limited to the specific details, representative apparatus, and illustrative examples shown and described herein, without departing from the spirit and scope of the general concept as defined by the appended claims and their equivalents.
Claims (14)
1. The automatic magnetizing equipment for the 5G communication circulator/isolator is characterized by comprising a base (7), and a magnetizing machine main shaft mechanism, a magnetizing machine main shaft sliding rail mechanism, a tooling plate mechanism and a magnetizing head mechanism which are arranged on the base (7), wherein the magnetizing head mechanism is arranged between the magnetizing machine main shaft mechanism and the tooling plate mechanism; and the magnetizing machine main shaft mechanism moves on the magnetizing machine main shaft sliding rail mechanism, devices in the tooling plate mechanism are transferred to the magnetizing head mechanism for magnetizing, and after the magnetizing is finished, the devices are transferred to the tooling plate mechanism.
2. The automatic magnetizing apparatus for 5G communication circulator/isolator as claimed in claim 1, wherein the spindle rail mechanism of the magnetizing apparatus comprises a first rail mechanism and a second rail mechanism, and the first rail mechanism and the second rail mechanism are disposed in parallel.
3. The automatic magnetizing apparatus for 5G communication circulator/isolator according to claim 2, wherein the first slide rail mechanism comprises a first mounting plate (411), a first support leg (41), a first slide rail beam (4111) and a first slide rail (4), and the first slide rail (4) is mounted on the first slide rail beam (4111); the first sliding rail beam (4111) is mounted on the first mounting plate (411) through a first support leg (41).
4. The automatic magnetizing apparatus for 5G communication circulator/isolator as claimed in claim 3, wherein the second slide rail mechanism comprises a second mounting plate (511), a second supporting leg (51), a second slide rail beam (5111) and a second slide rail (5), the second slide rail (5) is mounted on the second slide rail beam (5111); the second sliding rail beam (5111) is mounted on the second mounting plate (511) through a second supporting leg (51); the second sliding rail beam (5111) and the first sliding rail beam (4111) are installed at the same height.
5. The automatic magnetizing equipment for the 5G communication circulator/isolator as claimed in claim 1, wherein the magnetizer main shaft mechanism comprises a beam (61), a beam slide rail (6), a magnetizer main shaft (1), a suction head (11), a cylinder (13) and a magnetizer main shaft slide rail (14); a cross beam sliding rail (6) is arranged on the cross beam (61), a suction head (11) is connected below the main shaft (1) of the magnetizer, and the cylinder (13) drives the main shaft (1) of the magnetizer and the suction head (11) to move up and down on the main shaft sliding rail (14) of the magnetizer; the main shaft (1) of the magnetizing apparatus is connected to the cross beam (61) and can move left and right along the cross beam sliding rail (6).
6. The automatic magnetizing equipment for 5G communication circulator/isolator as claimed in claim 5, wherein the suction heads (11) are arranged around the circumference of the magnetizing machine main shaft (1) below the magnetizing machine main shaft.
7. The automatic magnetizing equipment of the 5G communication circulator/isolator as claimed in claim 5, wherein the magnetizing apparatus main shaft mechanism further comprises a spring (12), and the spring (12) is mounted on a connecting rod of the cylinder (13) and plays a role in buffering the impact force of the cylinder (13).
8. The automatic magnetizing apparatus for 5G communication circulator/isolator as claimed in claim 5, wherein the cross beam (61) is connected with a first slide rail beam (4111) and a second slide rail beam (5111) and can move along a first slide rail (4) and a second slide rail (5), and the first slide rail (4) and the second slide rail (5) are respectively mounted on the first slide rail beam (4111) and the second slide rail beam (5111); the first and second slide rail beams (4111, 5111) are mounted on the base (7).
9. The automatic magnetizing apparatus of 5G communication circulator/isolator as claimed in claim 8, wherein the first slide rail (4), the second slide rail (5) and the cross beam slide rail (6) are driven by a lead screw driven by a servo motor.
10. The automatic magnetizing equipment for the 5G communication circulator/isolator is characterized in that the tooling plate mechanism comprises a tooling plate (3), a tooling plate beam (33), a tooling plate beam supporting leg (32) and a tooling plate mounting plate (31), wherein the tooling plate (3) is supported by the tooling plate beam (33), and the tooling plate beam (33) is mounted on the tooling plate mounting plate (31) through the tooling plate beam supporting leg (32); the tooling plate cross beam (33) and the cross beam (61) are arranged in parallel; the mounting height of the tooling plate cross beam (33) is lower than that of the first slide rail beam (4111).
11. The automatic magnetizing equipment for the 5G communication circulator/isolator as claimed in claim 10, wherein the tooling plate mechanism further comprises a tooling plate positioning seat (34), the tooling plate positioning seat (34) is fixedly mounted on the tooling plate mounting plate (31), and the tooling plate positioning seat (34) can be matched with a groove (35) on the tooling plate (3) so as to position and fix the tooling plate (3).
12. The automatic magnetizing apparatus for 5G communication circulator/isolator as claimed in claim 10, wherein a first sliding rail beam (4111) and a second sliding rail beam (5111) are respectively disposed on the left and right sides of the tooling plate (3).
13. The automatic magnetizing apparatus of 5G communication circulator/isolator as claimed in claim 1, wherein the magnetizing head mechanism comprises a magnetizing head base (2), a magnetizing head cavity (21) and a magnetizing lead (22); the magnetizing head cavity (21) is arranged on the upper surface of the magnetizing head base (2), and the magnetizing lead (22) is arranged at one end, far away from the tooling plate beam (33), of the magnetizing head base (2); and the device on the tool plate (3) is moved into the magnetic charging head cavity (21) for charging magnetism.
14. The automatic magnetizing equipment for the 5G communication circulator/isolator as claimed in claim 1, wherein the automatic magnetizing equipment for the 5G communication circulator/isolator further comprises a casing (8), and the casing (8) can wrap the magnetizer main shaft mechanism, the magnetizer main shaft slide rail mechanism, the tooling plate mechanism and the magnetizing head mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022117845.2U CN212990825U (en) | 2020-09-24 | 2020-09-24 | Automatic magnetizing equipment for 5G communication circulator/isolator |
Applications Claiming Priority (1)
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CN202022117845.2U CN212990825U (en) | 2020-09-24 | 2020-09-24 | Automatic magnetizing equipment for 5G communication circulator/isolator |
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CN212990825U true CN212990825U (en) | 2021-04-16 |
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CN202022117845.2U Active CN212990825U (en) | 2020-09-24 | 2020-09-24 | Automatic magnetizing equipment for 5G communication circulator/isolator |
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Denomination of utility model: A 5G communication circulator/isolator automatic magnetization device Effective date of registration: 20230314 Granted publication date: 20210416 Pledgee: Wuhan area branch of Hubei pilot free trade zone of Bank of China Ltd. Pledgor: WUHAN XINHAO INTELLIGENT TECHNOLOGY Co.,Ltd. Registration number: Y2023420000102 |