CN113003194A - Motor rotor subassembly tin solder dish rack - Google Patents

Abstract

A motor rotor assembly tin solder disc rack, includes: the device comprises a device bracket, a feeding slide rail, a feeding push rod, a lifting material rack and a storage material rack; the charging tray loaded with the tin soldering finished motor rotor is conveyed to one side of the feeding push rod through the feeding slide rail, the feeding push rod is used for pushing the charging tray to the two lifting mechanisms, the lifting mechanisms are used for lifting the charging tray to the corresponding storage slide ways, the storage push rod is used for pushing the charging trays on the two lifting mechanisms to the storage slide ways, the tin soldering trays are stored in the storage slide ways which are arranged in a layered mode, and the storage quantity of the tin soldering trays in unit area is greatly increased.

Description

Motor rotor subassembly tin solder dish rack

Technical Field

The invention relates to the field of motor rotor production equipment, in particular to a tin solder disc placing frame for a motor rotor assembly.

Background

The VCM motor, a voice coil motor inside electronics, is one type of motor, and is called a voice coil motor because the principle is similar to a speaker. Has the characteristics of high frequency response and high precision. The focusing device is widely applied to focusing of the camera.

Because the bodily form of the rotor of the VCM motor is less, in the production process, the motor rotor is placed on the latticed tin solder disc so as to be convenient for soldering, and after the soldering is finished, the tin solder disc needs to be stored so as to carry out the next procedure.

Disclosure of Invention

The invention aims to solve the problems that the existing tin solder disc placing frame is small in storage capacity and cannot be suitable for large-batch storage, and aims to provide the tin solder disc placing frame for the motor rotor assembly.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a motor rotor assembly tin solder disc rack, includes:

the device comprises a device bracket, a feeding slide rail, a feeding push rod, a lifting material rack and a storage material rack;

the device comprises a feeding slide rail, a feeding push rod and a lifting frame, wherein the feeding slide rail, the feeding push rod and the lifting frame are respectively and fixedly arranged on a device support, the feeding push rod and the lifting frame are respectively and symmetrically arranged on two sides of the feeding slide rail, two lifting mechanisms, namely a first lifting mechanism and a second lifting mechanism, are arranged on the lifting frame, the storage frame is arranged on one side of the lifting frame, storage slideways are arranged on the storage frame in a layered mode, a lifting slideway is arranged on the other side of the lifting frame, a lifting seat is arranged on the lifting slideway, a storage push rod is fixed on the lifting seat, and the output end of the;

the lifting mechanism comprises a transmission shaft, a transmission chain disc, a transmission chain, a positioning and moving block, a limiting guide rail and a lifting plate, the transmission shaft is rotatably arranged on a lifting material frame, the transmission chain disc is fixedly arranged on the transmission shaft, the transmission chain is arranged on the transmission chain disc, the limiting guide rail is fixedly arranged on the lifting material frame, the limiting guide rail and the transmission chain form a concentric annular structure, the positioning and moving block is fixedly arranged on the transmission chain, one end of the positioning and moving block is provided with the limiting block, the limiting block is slidably positioned in the limiting guide rail, and the lifting plate is arranged on the positioning and moving block;

the material lifting frame is provided with a driving shaft, the driving shaft is respectively connected with a transmission shaft on the first lifting mechanism and a transmission shaft on the second lifting mechanism through gears, and the transmission shaft on the first lifting mechanism is driven by a driving motor.

Furthermore, the number of the lifting plates on the first lifting mechanism is equal to that of the lifting plates on the second lifting mechanism, the lifting plates on the first lifting mechanism and the lifting plates on the second lifting mechanism correspond to each other one by one, and when the two corresponding lifting plates are displaced to the closest distance, the two lifting plates are located on the same plane.

Furthermore, decide the displacement piece lower part and be fixed with the limiting plate, the lifting plate is articulated to be installed on deciding the displacement piece, the lifting plate is located limiting plate upper portion.

Furthermore, the lifting plate is sleeved with an anti-skid rubber sleeve.

Furthermore, the lifting seat and the transmission chain move for a stroke distance equal to the distance between two adjacent storage slideways on the storage rack.

Further, conveying rollers are respectively installed at two ends of the storage slide way, the conveying rollers are driven by independent motors, and feeding conveying belts are installed on the conveying rollers.

The invention has the beneficial effects that:

the tin solder plate storage device is simple in structure, a material plate loaded with a tin soldering finished motor rotor is conveyed to one side of the feeding push rod through the feeding slide rail, the material plate is pushed to the two lifting mechanisms by the feeding push rod, the material plate is lifted to the corresponding storage slide ways by the lifting mechanisms, the material plates on the two lifting mechanisms are pushed to the storage slide ways by the storage push rod, the tin solder plates are stored in the storage slide ways arranged in a layered mode, and the storage quantity of the tin solder plates in a unit area is greatly increased.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a diagram of a lifting frame structure of the present invention;

in the figure: 1. a device holder; 2. a feeding slide rail; 3. a feeding push rod; 4. lifting the material rack; 5. a material storage rack; 12. a first lifting mechanism; 13. a second lifting mechanism; 14. a storage chute; 15. a lifting slideway; 16. a lifting seat; 17. a material storage push rod; 21. a drive shaft; 22. a drive chain plate; 23. a fixed displacement block; 24. limiting a guide rail; 25. a lifting plate; 26. a limiting block; 27. a drive shaft; 28. a drive motor; 31. a limiting plate; 32. an anti-slip rubber sleeve; 41. a conveying roller; 42. a feeding conveyer belt.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

As shown in fig. 1-3; a motor rotor assembly tin solder disc rack, includes:

the device comprises a device bracket 1, a feeding slide rail 2, a feeding push rod 3, a lifting material rack 4 and a storage material rack 5;

the device comprises a device support 1, a feeding slide rail 2, a feeding push rod 3 and a lifting frame, wherein the feeding slide rail 2, the feeding push rod 3 and the lifting frame are respectively and fixedly installed on the device support 1, the feeding push rod 3 and the lifting frame 4 are respectively and symmetrically located on two sides of the feeding slide rail 2, two lifting mechanisms, namely a first lifting mechanism 12 and a second lifting mechanism 13, are installed on the lifting frame 4, a storage frame 5 is arranged on one side of the lifting frame 4, storage slideways 14 are arranged on the storage frame 5 in a layered mode, a lifting slideway 15 is arranged on the other side of the lifting frame 4, a lifting seat 16 is installed on the lifting slideway 15, a storage push rod 17 is fixed on the lifting seat 16, and;

the lifting mechanism comprises a transmission shaft 21, a transmission chain disc 22, a transmission chain, a fixed displacement block 23, a limiting guide rail 24 and a lifting plate 25, wherein the transmission shaft 21 is rotatably installed on the lifting material rack 4, the transmission chain disc 22 is fixedly installed on the transmission shaft 21, the transmission chain is installed on the transmission chain disc 22, the limiting guide rail 24 is fixed on the lifting material rack 4, the limiting guide rail 24 and the transmission chain form a concentric annular structure, the fixed displacement block 23 is fixed on the transmission chain, one end of the fixed displacement block 23 is provided with a limiting block 26, the limiting block 26 is slidably located in the limiting guide rail 24, and the lifting plate 25 is installed on the fixed displacement block 23;

the material lifting frame 4 is provided with a driving shaft 27, the driving shaft 27 is respectively connected with the transmission shaft 21 on the first lifting mechanism 12 and the transmission shaft 21 on the second lifting mechanism 13 through gears, and the transmission shaft 21 on the first lifting mechanism 12 is driven by a driving motor 28.

The utility model provides a motor rotor subassembly tin soldering material dish rack, theory of operation:

the material tray loaded with the tin soldering finished motor rotor is conveyed to one side of the feeding push rod 3 through the feeding slide rail 2, the material tray is pushed to the two lifting mechanisms through the feeding push rod 3, the material tray is lifted to the corresponding storage slide ways 14 through the lifting mechanisms, the material trays on the two lifting mechanisms are pushed to the storage slide ways 14 through the material storage push rod 17, the tin soldering material trays are stored in the storage slide ways 14 which are arranged in a layered mode, and the storage quantity of the tin soldering material trays in a unit area is greatly increased.

Example 2

On the basis of example 1, as shown in FIGS. 1-3; the number of the lifting plates 25 on the first lifting mechanism 12 is equal to the number of the lifting plates 25 on the second lifting mechanism 13, the lifting plates 25 on the first lifting mechanism and the second lifting mechanism correspond to each other one by one, and when the two corresponding lifting plates 25 are displaced to the nearest distance, the two lifting plates 25 are located on the same plane.

A limiting plate 31 is fixed on the lower portion of the fixed displacement block 23, the lifting plate 25 is hinged on the fixed displacement block 23, and the lifting plate 25 is located on the upper portion of the limiting plate 31.

The lifting plate 25 is sleeved with an antiskid rubber sleeve 32.

The lifting seat and the transmission chain move for a stroke distance equal to the distance between two adjacent storage slideways 14 on the storage rack.

Conveying rollers 41 are respectively installed at two ends of the storage slide way 14, the conveying rollers 41 are driven by independent motors, and a feeding conveying belt 42 is installed on the conveying rollers 41.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A motor rotor subassembly tin soldering tin dish rack which characterized in that includes:

the device comprises a device bracket, a feeding slide rail, a feeding push rod, a lifting material rack and a storage material rack;

the device comprises a feeding slide rail, a feeding push rod and a lifting frame, wherein the feeding slide rail, the feeding push rod and the lifting frame are respectively and fixedly arranged on a device support, the feeding push rod and the lifting frame are respectively and symmetrically arranged on two sides of the feeding slide rail, two lifting mechanisms, namely a first lifting mechanism and a second lifting mechanism, are arranged on the lifting frame, the storage frame is arranged on one side of the lifting frame, storage slideways are arranged on the storage frame in a layered mode, a lifting slideway is arranged on the other side of the lifting frame, a lifting seat is arranged on the lifting slideway, a storage push rod is fixed on the lifting seat, and the output end of the;

the lifting mechanism comprises a transmission shaft, a transmission chain disc, a transmission chain, a positioning and moving block, a limiting guide rail and a lifting plate, the transmission shaft is rotatably arranged on a lifting material frame, the transmission chain disc is fixedly arranged on the transmission shaft, the transmission chain is arranged on the transmission chain disc, the limiting guide rail is fixedly arranged on the lifting material frame, the limiting guide rail and the transmission chain form a concentric annular structure, the positioning and moving block is fixedly arranged on the transmission chain, one end of the positioning and moving block is provided with the limiting block, the limiting block is slidably positioned in the limiting guide rail, and the lifting plate is arranged on the positioning and moving block;

the material lifting frame is provided with a driving shaft, the driving shaft is respectively connected with a transmission shaft on the first lifting mechanism and a transmission shaft on the second lifting mechanism through gears, and the transmission shaft on the first lifting mechanism is driven by a driving motor.

2. A motor rotor assembly tin solder disc placing frame according to claim 1, wherein the number of the lifting plates on the first lifting mechanism is equal to the number of the lifting plates on the second lifting mechanism, and the lifting plates on the first lifting mechanism and the second lifting mechanism are in one-to-one correspondence, and when the two corresponding lifting plates are displaced to the nearest distance, the two lifting plates are located on the same plane.

3. A tin solder disc placing frame for a motor rotor assembly according to claim 1, wherein a limiting plate is fixed to the lower portion of the fixed displacement block, the lifting plate is hinged to the fixed displacement block, and the lifting plate is located on the upper portion of the limiting plate.

4. A motor rotor assembly tin solder disc placement rack in accordance with claim 3, wherein said lifting plate is fitted with an anti-slip rubber sleeve.

5. A tin solder plate placing frame for a motor rotor assembly according to claim 1, wherein the lifting seat and the transmission chain move for a stroke distance equal to the distance between two adjacent storage slideways on the storage rack.

6. A tin solder plate placing frame for a motor rotor assembly according to claim 1, wherein conveying rollers are respectively arranged at two ends of the storage slide way, the conveying rollers are driven by independent motors, and feeding conveying belts are arranged on the conveying rollers.

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