CN221387449U

CN221387449U - Photovoltaic cell electric conduction aluminum powder circulation powder sieve device with noise reduction structure

Info

Publication number: CN221387449U
Application number: CN202323446182.9U
Authority: CN
Inventors: 屈景兰; 柳安心
Original assignee: Shaanxi Xiansheng Era Industrial Co ltd
Current assignee: Shaanxi Xiansheng Era Industrial Co ltd
Priority date: 2023-12-18
Filing date: 2023-12-18
Publication date: 2024-07-23
Anticipated expiration: 2033-12-18

Abstract

The application belongs to the technical field of aluminum powder processing, and discloses a photovoltaic cell electric conduction aluminum powder circulating powder screening device with a noise reduction structure, which comprises a base with an opening at the upper end, wherein a vibrating motor is fixedly arranged on the inner bottom wall of the base, a collecting box with the opening at the upper end is fixedly arranged at the end part of an output shaft of the vibrating motor, a first discharging hole is formed in the side wall of the collecting box in a penetrating manner, a mounting piece is arranged on the upper surface of the collecting box, a screen is fixedly arranged on the inner wall of the mounting piece, the screen and the mounting piece are integrally designed, a second discharging hole is formed in the side wall of the mounting piece in a penetrating manner, the screen is positioned below the second discharging hole, and a connecting component for connecting the mounting piece is arranged on the collecting box. The application has the effect of reducing the use cost.

Description

Photovoltaic cell electric conduction aluminum powder circulation powder sieve device with noise reduction structure

Technical Field

The utility model relates to the technical field of aluminum powder processing, in particular to a photovoltaic cell electric conduction aluminum powder circulating powder sieve device with a noise reduction structure.

Background

Aluminum powder is needed in the production process of the photovoltaic cell, but before delivery, the aluminum powder is required to be screened to filter impurities in the aluminum powder, and aluminum powder with different diameters is classified.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: when the existing screening device is used, because the size of the screen is fixed, only aluminum powder with one diameter can be screened out, and when the screening device is used, workers cannot replace the screen, so that the workers need to purchase screening equipment with different diameters, and the use cost is further increased.

Disclosure of utility model

In order to solve the problems, the utility model provides a photovoltaic cell electric conduction aluminum powder circulating powder sieve device with a noise reduction structure.

The technical aim of the utility model is realized by the following technical scheme: the utility model provides a photovoltaic cell electric conduction aluminium powder circulation powder sieve device with structure of making an uproar falls, includes upper end open-ended base, fixedly is provided with vibrating motor on the interior diapire of base, vibrating motor's output shaft end fixing is provided with upper end open-ended collection box, run through on the lateral wall of collection box and seted up first discharge gate, the last surface mounting of collection box has the installed part, fixedly be provided with the screen cloth on the inner wall of installed part, screen cloth and the integrative design of installed part, the second discharge gate has been run through on the lateral wall of installed part, the screen cloth is located the below of second discharge gate, be provided with the coupling assembling who is used for connecting the installed part on the collection box.

Through adopting above-mentioned technical scheme, when the staff need screen the aluminium powder, the staff need remove the aluminium powder on to the screen cloth. Subsequently, the staff needs to start the vibrating motor, and then the collecting box vibrates under the action of the vibrating motor, so that the mounting piece and the screen mesh vibrate under the action of the collecting box, and then the screen mesh is used for screening aluminum powder, and the screened aluminum powder is moved out through the first discharging hole and the second discharging hole respectively. In addition, when the staff need carry out the screening to the aluminium powder of different diameters, the staff starts the coupling assembling and changes the installed part can, need not to purchase many equipment to use cost has been reduced.

Further, the spout has been seted up to the upper surface of collecting box, a plurality of fixed slots have been seted up on the inner wall of spout, coupling assembling is including sliding the slide bar that sets up in the spout, the mounting groove has been seted up on the lateral wall of slide bar, coupling assembling is still including sliding the mounting panel that sets up in the mounting groove and a plurality of array distribution fixed block on the mounting panel lateral wall, the fixed block matches each other with the fixed slot, the slide bar is fixed each other with the mounting.

Through adopting above-mentioned technical scheme, when the staff need install the installed part, the staff need slide the slide bar in the spout. Subsequently, the worker needs to slide the mounting plate, and then the fixing block slides into the fixing groove under the action of the mounting plate, so that the mounting piece is fixed. In addition, when the staff need dismantle the installed part, the staff only need make fixed block and fixed slot separate each other can to the work degree of difficulty of staff has been reduced.

Further, the limiting groove is formed in the inner wall of the mounting groove, the movable groove is formed in the inner wall of the limiting groove, the limiting rod is arranged in the limiting groove in a sliding mode, the limiting rod and the mounting plate are fixed with each other, the movable rod is arranged in the movable groove in a sliding mode, and the first inclined surface is formed in the bottom surface of the limiting rod, which is far away from the edge, intersecting with the side wall of the mounting plate, of the limiting rod.

Through adopting above-mentioned technical scheme, when the staff needs the slip mounting panel, the staff need upwards slide movable rod, and then makes the movable rod be close to gradually and finally support tightly first inclined plane to make the gag lever post slide to the direction that is close to the fixed slot under the effect of movable rod, and then make the mounting panel slide to the direction that is close to the fixed slot under the effect of gag lever post, thereby make the fixed block slide into the fixed slot in, and then reduced the degree of difficulty of staff's slip mounting panel, thereby reduced the work degree of difficulty of staff.

Further, a rotating groove is formed in the side wall of the mounting piece, a rotating rod is rotationally arranged in the rotating groove, a fixing rope is fixedly arranged on the side wall of the rotating rod, and the other end of the fixing rope is mutually fixed with the upper surface of the movable rod.

Through adopting above-mentioned technical scheme, when the staff need upwards slide movable rod, the staff need rotate the dwang, and then makes fixed rope twine to the lateral wall of dwang on to make the other end upward movement of fixed rope, thereby make the movable rod upwards slide under the effect of fixed rope, and then reduced the degree of difficulty of staff's slip movable rod, thereby reduced the work degree of difficulty of staff.

Further, the mounting plate is fixedly provided with a reset spring on the side wall far away from the fixed block, and the other end of the reset spring is fixedly arranged on the inner wall of the mounting groove.

Through adopting above-mentioned technical scheme, when movable rod and gag lever post mutually separated, the mounting panel slides to the direction of keeping away from the fixed slot under reset spring's effect, and then makes fixed block and fixed slot mutually separated to the degree of difficulty that the staff dismantled the installed part has been reduced, and then the work degree of difficulty of staff has been reduced.

Further, a blocking hole is formed in the inner wall of the rotating groove, a blocking groove is formed in the inner wall of the blocking hole in a circumferential array, a blocking rod is arranged in the blocking groove in a sliding mode, a blocking block is arranged in the blocking groove in a sliding mode, the blocking rod and the rotating rod are fixed with each other, and the blocking block and the blocking rod are fixed with each other.

Through adopting above-mentioned technical scheme, when the staff need fix the dwang, the staff need slide the dwang, and then makes and block the pole and block the piece and slide into the hole and block the inslot under the effect of dwang respectively to the probability that takes place to rock when having reduced the dwang and receiving external force, and then improved the stability of device.

Further, an accommodating groove is formed in the inner wall of the rotating groove.

Through adopting above-mentioned technical scheme, the holding tank has reduced the fixed rope and has taken place winding probability to the stability of device has been improved.

In summary, the utility model has the following beneficial effects:

1. In the application, when a worker needs to screen the aluminum powder, the worker needs to move the aluminum powder to the screen. Subsequently, the staff needs to start the vibrating motor, and then the collecting box vibrates under the action of the vibrating motor, so that the mounting piece and the screen mesh vibrate under the action of the collecting box, and then the screen mesh is used for screening aluminum powder, and the screened aluminum powder is moved out through the first discharging hole and the second discharging hole respectively. In addition, when the staff needs to screen the aluminum powder with different diameters, the staff starts the connecting component to replace the mounting piece, and does not need to purchase a plurality of devices, so that the use cost is reduced;

2. In the application, when a worker needs to install the installation piece, the worker needs to slide the sliding rod into the sliding groove. Subsequently, the worker needs to slide the mounting plate, and then the fixing block slides into the fixing groove under the action of the mounting plate, so that the mounting piece is fixed. In addition, when the staff needs to disassemble the mounting piece, the staff only needs to separate the fixing block from the fixing groove, so that the working difficulty of the staff is reduced;

3. According to the application, when a worker needs to slide the mounting plate, the worker needs to slide the movable rod upwards, so that the movable rod gradually approaches and finally abuts against the first inclined surface, the limiting rod slides towards the direction approaching the fixing groove under the action of the movable rod, and the mounting plate slides towards the direction approaching the fixing groove under the action of the limiting rod, so that the fixing block slides into the fixing groove, the difficulty of the worker in sliding the mounting plate is reduced, and the working difficulty of the worker is reduced.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of a collecting box according to an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of a connecting assembly according to an embodiment of the present utility model;

Fig. 4 is a schematic cross-sectional view of fig. 2a according to an embodiment of the present utility model.

In the figure: 1. a base; 11. a vibration motor; 12. a collection box; 13. a mounting member; 14. a screen; 15. a first discharge port; 16. a second discharge port; 2. a connection assembly; 21. a slide bar; 22. a mounting plate; 23. a fixed block; 3. a chute; 31. a fixing groove; 32. a mounting groove; 33. a limit groove; 34. a movable groove; 35. a rotating groove; 36. blocking the hole; 37. a blocking groove; 38. a receiving groove; 4. a limit rod; 41. a movable rod; 42. a first inclined surface; 5. a rotating lever; 51. a fixing rope; 6. a return spring; 7. a blocking lever; 71. and a blocking piece.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application; it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present application are within the protection scope of the present application.

As shown in fig. 1-4, the embodiment of the application discloses a photovoltaic cell electric conduction aluminum powder circulating powder screening device with a noise reduction structure, which comprises a base 1, a vibration motor 11, a collecting box 12, a mounting piece 13, a screen 14, a connecting component 2, a limiting rod 4, a movable rod 41, a first inclined surface 42, a rotating rod 5, a fixed rope 51, a return spring 6, a blocking rod 7 and a blocking block 71. The base 1 is of a cylindrical structure with an opening at the upper end, and the axis of the base is vertical. The vibration motor 11 is fixedly arranged on the inner bottom wall of the base 1, and the axis of the output shaft of the vibration motor is coincident with the axis of the base 1. The collecting box 12 is of a cylindrical structure with an opening at the upper end, the axis of the collecting box is coincident with that of the base 1, the collecting box 12 is fixedly arranged at the end part of the output shaft of the vibrating motor 11, and a first discharging hole 15 is formed in the side wall of the collecting box 12 in a penetrating manner. The mounting piece 13 is of a circular tube structure, the axis of the mounting piece 13 is coincident with the axis of the base 1, the mounting piece 13 is mounted on the upper surface of the collecting box 12, and a second discharging hole 16 is formed in the side wall of the mounting piece 13 in a penetrating manner. The screen 14 is fixedly arranged on the inner wall of the mounting piece 13, the screen 14 and the mounting piece 13 are integrally designed, and the screen 14 is positioned below the second discharging hole 16.

When the worker needs to screen the aluminum powder, the worker needs to move the aluminum powder onto the screen 14. Subsequently, the worker starts the vibration motor 11, and then the collection box 12 vibrates under the action of the vibration motor 11, so that the installation piece 13 and the screen 14 vibrate under the action of the collection box 12, and then the screen 14 screens the aluminum powder, so that the screened aluminum powder is respectively moved out through the first discharge hole 15 and the second discharge hole 16. In addition, when the staff need carry out the screening to the aluminium powder of different diameters, the staff starts coupling assembling 2 to change installed part 13 can, need not to purchase many equipment to use cost has been reduced.

The upper surface of the collecting box 12 is provided with a chute 3, and the inner wall of the chute 3 is provided with a plurality of fixing grooves 31. The connecting assembly 2 is arranged on the collecting box 12 for connecting the mounting member 13, and the connecting assembly 2 comprises a slide bar 21, a mounting plate 22 and a fixing block 23. The slide bar 21 is of a rectangular rod-shaped structure, the slide bar 21 is arranged in the slide groove 3 in a sliding way, the side wall of the slide bar 21 is provided with a mounting groove 32, and the slide bar 21 and the mounting piece 13 are mutually fixed. The mounting plate 22 has a rectangular plate-like structure, and the mounting plate 22 is slidably disposed in the mounting groove 32. The fixed block 23 is of a rectangular block structure, the fixed block 23 is provided with a plurality of fixed blocks which are distributed on the side wall of the mounting plate 22 in an array manner, and the fixed block 23 is matched with the fixed groove 31.

When a worker needs to install the mounting member 13, the worker needs to slide the slide bar 21 into the slide groove 3. Subsequently, the worker slides the mounting plate 22, and then slides the fixing block 23 into the fixing groove 31 by the mounting plate 22, thereby fixing the mounting member 13. In addition, when the worker needs to disassemble the mounting part 13, the worker only needs to separate the fixing block 23 and the fixing groove 31 from each other, so that the work difficulty of the worker is reduced.

The inner wall of the mounting groove 32 is provided with a limit groove 33, and the inner wall of the limit groove 33 is provided with a movable groove 34. The limiting rod 4 is of a rectangular rod-shaped structure, the limiting rod 4 is slidably arranged in the limiting groove 33, and the limiting rod 4 and the mounting plate 22 are mutually fixed. The movable rod 41 is in a rectangular rod-shaped structure, the movable rod 41 is slidably arranged in the movable groove 34, and a first inclined surface 42 is formed on the edge of the bottom surface of the limiting rod 4 intersecting with the side wall of the limiting rod away from the mounting plate 22.

When the staff needs to slide the mounting plate 22, the staff needs to slide the movable rod 41 upwards, and then the movable rod 41 gradually approaches and finally abuts against the first inclined surface 42, so that the limiting rod 4 slides towards the direction close to the fixed groove 31 under the action of the movable rod 41, and then the mounting plate 22 slides towards the direction close to the fixed groove 31 under the action of the limiting rod 4, so that the fixed block 23 slides into the fixed groove 31, and then the difficulty of the staff to slide the mounting plate 22 is reduced, and the working difficulty of the staff is reduced.

The side wall of the mounting piece 13 is provided with a rotating groove 35, the axis of the rotating rod 5 is horizontal, and the rotating rod 5 is rotatably arranged in the rotating groove 35. One end of the fixed rope 51 is fixedly provided on the side wall of the rotating lever 5, and the other end of the fixed rope 51 is fixed to the upper surface of the movable lever 41.

When the staff needs to slide the movable rod 41 upwards, the staff needs to rotate the rotary rod 5, and then the fixed rope 51 is wound on the side wall of the rotary rod 5, so that the other end of the fixed rope 51 moves upwards, the movable rod 41 slides upwards under the action of the fixed rope 51, and the difficulty of sliding the movable rod 41 by the staff is reduced, and the working difficulty of the staff is reduced.

One end of the return spring 6 is fixedly arranged on the side wall of the mounting plate 22 away from the fixed block 23, and the other end of the return spring 6 is fixedly arranged on the inner wall of the mounting groove 32.

When movable rod 41 and gag lever post 4 mutually separate, mounting panel 22 slides to the direction of keeping away from fixed slot 31 under reset spring 6's effect, and then makes fixed block 23 and fixed slot 31 mutually separate to the degree of difficulty that the staff dismantled mounting 13 has been reduced, and then the work degree of difficulty of staff has been reduced.

The inner wall of the rotary groove 35 is provided with a blocking hole 36, and the inner wall of the blocking hole 36 is provided with a blocking groove 37 in a circumferential array. The blocking rod 7 is of a round rod-shaped structure, the axis of the blocking rod is coincident with that of the rotating rod 5, the blocking rod 7 is arranged in the blocking groove 37 in a sliding mode, and the blocking rod 7 and the rotating rod 5 are mutually fixed. The blocking block 71 has a rectangular block structure, the blocking block 71 is provided with a plurality of blocking grooves 37 and is respectively slidably arranged in the plurality of blocking grooves, and the blocking block 71 and the blocking rod 7 are mutually fixed.

When the staff needs to fix the rotating rod 5, the staff needs to slide the rotating rod 5, and then the blocking rod 7 and the blocking block 71 slide into the blocking hole 36 and the blocking groove 37 respectively under the action of the rotating rod 5, so that the probability of shaking when the rotating rod 5 is subjected to external force is reduced, and the stability of the device is improved.

In order to improve the stability of the device, the inner wall of the rotary groove 35 is provided with a receiving groove 38. The receiving groove 38 reduces the possibility of the fixing rope 51 being wound, thereby improving the stability of the device.

The application principle of the photovoltaic cell electric conduction aluminum powder circulating powder sieve device with the noise reduction structure in the embodiment is as follows: when the worker needs to screen the aluminum powder, the worker needs to move the aluminum powder onto the screen 14. Subsequently, the worker starts the vibration motor 11, and then the collection box 12 vibrates under the action of the vibration motor 11, so that the installation piece 13 and the screen 14 vibrate under the action of the collection box 12, and then the screen 14 screens the aluminum powder, so that the screened aluminum powder is respectively moved out through the first discharge hole 15 and the second discharge hole 16. In addition, when the staff need to screen the aluminium powder of different diameters, the staff starts coupling assembling 2 and changes installed part 13 can. At this time, the worker slides the slide bar 21 into the slide groove 3. Subsequently, the worker slides the mounting plate 22, and then slides the fixing block 23 into the fixing groove 31 by the mounting plate 22, thereby fixing the mounting member 13. In addition, when the worker needs to disassemble the mounting part 13, the worker only needs to separate the fixing block 23 and the fixing groove 31 from each other, so that the work difficulty of the worker is reduced.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims

1. Photovoltaic cell electric conduction aluminium powder circulation powder sieve device with structure of making an uproar falls, including upper end open-ended base (1), characterized by: the utility model discloses a vibrating motor, including base (1), fixed be provided with vibrating motor (11) on the inner bottom wall of base (1), vibrating motor's (11) output shaft end fixing is provided with upper end open-ended collection box (12), first discharge gate (15) have been run through on collecting box (12)'s the lateral wall, collecting box (12)'s last surface mounting has installed mounting (13), fixed screen cloth (14) that are provided with on mounting (13)'s the inner wall, screen cloth (14) and mounting (13) integrated design, second discharge gate (16) have been run through on mounting (13)'s the lateral wall, screen cloth (14) are located the below of second discharge gate (16), be provided with on collecting box (12) coupling assembling (2) that are used for connecting mounting (13).

2. The photovoltaic cell electric conduction aluminum powder circulating powder screening device with the noise reduction structure according to claim 1, which is characterized in that: the utility model discloses a collection box, including collection box (12), spout (3) have been seted up on the upper surface of collection box (12), a plurality of fixed slots (31) have been seted up on the inner wall of spout (3), coupling assembling (2) are including sliding slide bar (21) that set up in spout (3), mounting groove (32) have been seted up on the lateral wall of slide bar (21), coupling assembling (2) are still including sliding mounting panel (22) and the fixed block (23) of a plurality of arrays distribution on mounting panel (22) lateral wall that set up in mounting groove (32), fixed block (23) and fixed slot (31) mutually support, slide bar (21) are fixed with mounting piece (13) each other.

3. The photovoltaic cell electric conduction aluminum powder circulating powder screening device with the noise reduction structure as claimed in claim 2, wherein the photovoltaic cell electric conduction aluminum powder circulating powder screening device is characterized in that: the utility model discloses a limiting device for the automobile, including mounting panel (22), locating slot (33) have been seted up on the inner wall of mounting panel (32), movable groove (34) have been seted up on the inner wall of locating slot (33), the interior stop lever (4) that is provided with of locating slot (33), stop lever (4) are fixed each other with mounting panel (22), the interior stop lever (41) that is provided with of movable groove (34), first inclined plane (42) have been seted up on the bottom surface of stop lever (4) and the crossing edge of lateral wall that is kept away from mounting panel (22) rather than.

4. A photovoltaic cell electric conduction aluminum powder circulation powder screening device with a noise reduction structure according to claim 3, characterized in that: the side wall of the mounting piece (13) is provided with a rotating groove (35), the rotating groove (35) is rotationally provided with a rotating rod (5), the side wall of the rotating rod (5) is fixedly provided with a fixing rope (51), and the other end of the fixing rope (51) is mutually fixed with the upper surface of the movable rod (41).

5. The photovoltaic cell electric conduction aluminum powder circulating powder screening device with the noise reduction structure as claimed in claim 2, wherein the photovoltaic cell electric conduction aluminum powder circulating powder screening device is characterized in that: the mounting plate (22) is fixedly provided with a reset spring (6) on the side wall far away from the fixed block (23), and the other end of the reset spring (6) is fixedly arranged on the inner wall of the mounting groove (32).

6. The photovoltaic cell electric conduction aluminum powder circulating powder screening device with the noise reduction structure, which is disclosed by claim 4, is characterized in that: the inner wall of the rotating groove (35) is provided with a blocking hole (36), the inner wall of the blocking hole (36) is provided with a blocking groove (37) in a circumferential array, a blocking rod (7) is arranged in the blocking groove (37) in a sliding mode, a blocking block (71) is arranged in the blocking groove (37) in a sliding mode, the blocking rod (7) and the rotating rod (5) are fixed with each other, and the blocking block (71) and the blocking rod (7) are fixed with each other.

7. The photovoltaic cell electric conduction aluminum powder circulating powder screening device with the noise reduction structure, which is disclosed by claim 4, is characterized in that: an accommodating groove (38) is formed in the inner wall of the rotating groove (35).