CN115400839A

CN115400839A - Screening equipment for lamp production waste

Info

Publication number: CN115400839A
Application number: CN202211359376.2A
Authority: CN
Inventors: 王志峰
Original assignee: Nantong Tengfeng Optical Instrument Co ltd
Current assignee: Nantong Tengfeng Optical Instrument Co ltd
Priority date: 2022-11-02
Filing date: 2022-11-02
Publication date: 2022-11-29
Anticipated expiration: 2042-11-02
Also published as: CN115400839B

Abstract

The invention discloses a screening device for lamp production waste, which relates to the technical field of lamp production and comprises a lamp storage mechanism, wherein the lamp storage mechanism comprises a protective shell, two fixing frames are fixedly connected to two sides of the protective shell, a first door plate is hinged to the front surface of the protective shell, a waste discharge port is formed in the bottom of the protective shell, a collecting box is arranged at the bottom of the protective shell, and the outer wall of the collecting box is fixedly connected with the outer walls of the fixing frames.

Description

Screening equipment for lamp production waste

Technical Field

The invention relates to the technical field of lamp production, in particular to a screening device for lamp production waste.

Background

A luminaire refers to an appliance that can transmit light, distribute and change the light distribution of a light source;

the device comprises a processing box, wherein one end of a rotating shaft, which is arranged inside a first box body, is connected with an adjusting mechanism, the outer wall of the rotating shaft, which is arranged inside the first processing box, is fixedly connected with a fixed plate, the fixed plate is connected with a driving pressure roller, one end of a curved rod, which is arranged inside a second box body, is connected with a reciprocating mechanism, and one end, which is far away from a discharge port, of the circulating mechanism is connected with the side wall of a feed hopper; according to the lamp waste crushing device, the reciprocating mechanism works to drive the baffle to move back and forth, so that waste can intermittently fall into the treatment box, the phenomenon that blanking is too concentrated and crushing is not thorough is avoided, the distance between the two groups of compression rollers is adjusted to a proper position through the adjusting mechanism according to the size of the waste, and the waste which is not completely crushed can be secondarily crushed through the circulating mechanism, so that the lamp waste crushing treatment efficiency of the device is improved;

the defective goods produced in the production process of the lamp are required to be recycled, the waste which is not completely crushed can be secondarily crushed by the recycling mechanism, so that the crushing treatment efficiency of the device on the lamp waste is improved, but the lamp is made of glass or plastic materials, the glass or plastic materials are recycled in different recycling modes, the plastic and the glass materials cannot be distinguished in the recycling process, and the subsequent screening difficulty is caused.

Disclosure of Invention

The invention aims to provide a screening device for lamp production waste, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the lamp production waste screening equipment comprises a lamp storage mechanism, wherein the lamp storage mechanism comprises a protective shell, two fixing frames are fixedly connected to two sides of the protective shell, a first door plate is hinged to the front surface of the protective shell, the first door plate is opened, a lamp to be crushed is placed on a transverse plate, a sliding block is started in a power-on mode, the sliding block moves on a sliding rail, the sliding block drives a transverse rod to move in the moving process of the sliding rail, and further enables a roller under a telescopic rod to move along the transverse plate;

the movable extrusion mechanism comprises a transverse plate, the inner wall of the protective shell is fixedly connected with the outer wall of the transverse plate, an arc-shaped block is fixedly connected to the left side of the transverse plate, one end of a connecting rod is fixedly connected to the left side of the arc-shaped block, a sliding rail is fixedly connected to the other end of the connecting rod, a sliding block is slidably connected to the outer wall of the sliding rail, a transverse rod is fixedly connected to the bottom of the sliding block, a telescopic rod is fixedly connected to the bottom of the transverse rod, rollers drive a part of lamps to move in the moving process, the arc-shaped block is arc-shaped when the lamps move to the arc-shaped block, the other part of the lamps can rotate and move, plastics and glass can be scattered to be opened, the plastics can be turned over, then the glass on the other side of the plastics can be extruded by the rollers, the preset program control sliding block stops returning to be crushed before moving to the right end of the transverse plate in the crushing process, after the subsequent glass is crushed completely, the rollers can move to the right end of the transverse plate under the manual control, the plastic is driven to move to the waste discharge port, then the plastics fall to be collected and stored, a first spring is fixedly connected to the outer wall of the telescopic rod, and the outer wall of the bearing is connected with the outer wall of the telescopic rod.

According to the technical scheme, the airflow suction mechanism comprises a first pipeline, airflow can flow upwards along an arc-shaped block after passing through a transverse plate, after glass is extruded and crushed, the airflow blows out to drive crushed glass to ascend, then the ascending glass powder is sucked under the suction of the first pipeline, the sucked powder is conveyed into a glass storage box through a second pipeline, the airflow and the powder are filtered and separated through a sponge block, the powder is stored in the glass storage box, the top of the protective shell is fixedly connected with one end of the first pipeline, a second spring is fixedly connected to the top of the sliding block, and a fan plate is fixedly connected to the top of the second spring.

According to the technical scheme, the fan is fixedly connected to the other end of the first pipeline, the fan is started in the process that the lamp is extruded by the rollers in a power-on mode, the fan is connected to the top of the protective shell through the first pipeline, the fan is connected to the airflow bin through the second pipeline, the fan blows airflow through the airflow opening in the airflow bin, the airflow is blown out from the transverse plate, when the airflow is blown out, the blowing-out of the airflow can drive the plastic and the glass to move towards the direction of the arc-shaped block, and one end of the support is fixedly connected to the outer wall of the fan.

According to the technical scheme, the other end of the support is fixedly connected with the outer wall of the fixing frame, and the bottom of the fan is fixedly connected with one end of the second pipeline.

According to the technical scheme, the second pipeline is fixedly connected with the glass storage box, and the outer wall of the glass storage box is fixedly connected with the right side of the protective shell.

According to the technical scheme, the inner wall of the glass storage box is fixedly connected with the sponge block, the sponge block is obliquely arranged, powder accumulated on the sponge block falls along the oblique direction, the sponge block is prevented from being blocked, filtered air flow continues to be blown out, the second door plate is opened after work is finished, the powder in the glass storage box can be taken out, and the front face of the glass storage box is hinged with the second door plate.

According to the technical scheme, the other end of the second pipeline is fixedly connected with the airflow cabin, and the outer wall of the airflow cabin is fixedly connected with the right side of the protective shell.

According to the technical scheme, the airflow bin is communicated with the inside of the protective shell, the airflow bin is located at the position of the transverse plate, and the inner wall of the airflow bin is provided with the airflow opening.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, through the oblique arrangement of the sponge block, after the sponge block filters powder in airflow, the powder accumulated on the sponge block can fall down through the oblique arrangement of the sponge block, so that the sponge block is prevented from being blocked, the powder is ensured to be continuously filtered, the first pipeline is arranged at the top of the protective shell, the powder blown in the protective shell is sucked, the powder is further collected, then the airflow is blown out again through the second pipeline, a plurality of effects are generated due to the arrangement of the fan, and the arrangement of additional electronic devices is reduced;

the airflow in the airflow port blows towards the transverse plate, and drives the plastic to move towards the arc-shaped block in the movement process of driving the glass powder, so that the plastic is repeatedly extruded, the glass on the plastic is extruded and dropped, when the airflow drives the glass powder to rise, the glass powder is sucked by the first pipeline, the glass powder which is not sucked falls onto the transverse plate again and is repeatedly sucked and utilized, and the airflow port drives the dropped powder to move towards the transverse plate, so that the separation of the plastic and the glass is ensured;

the rollers extrude the lamp to enable plastic in the lamp to be flattened, the glass can be extruded and crushed, screening of the lamp is guaranteed, subsequent redundant screening processes are reduced, the sliding block drives the fan plate to move in the moving process, the fan plate is connected with the sliding block through the elasticity of the second spring, the fan plate can fan airflow in the moving process of the sliding block, then the airflow is blown upwards, and collection of powder by the first pipeline is accelerated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall view of the present invention;

FIG. 2 is a schematic cross-sectional structural view of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is an enlarged view of portion B of FIG. 2 according to the present invention;

FIG. 5 is a schematic view of the internal structure of the present invention;

FIG. 6 is a schematic left-side perspective view of the present invention;

fig. 7 is a schematic bottom perspective view of the present invention.

In the figure: 1. a light fixture storage mechanism; 11. a protective shell; 12. a first door panel; 13. a fixed mount; 14. a collection box; 15. a waste discharge port; 2. a movable extrusion mechanism; 21. a connecting rod; 22. a slide rail; 23. a slider; 24. a cross bar; 25. a telescopic rod; 26. a first spring; 27. a roller; 28. a bearing; 29. an arc-shaped block; 210. a transverse plate; 3. an airflow suction mechanism; 31. a first pipe; 32. a fan; 33. a support; 34. a second pipe; 35. a glass storage box; 36. a second door panel; 37. an airflow bin; 38. a fan plate; 39. a second spring; 310. a sponge block; 311. an air flow port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example one

Referring to fig. 1-5, the present invention provides the following technical solutions: screening equipment for waste materials in lamp production, which comprises a lamp storage mechanism 1, wherein the lamp storage mechanism 1 comprises a protective shell 11, two fixing frames 13 are fixedly connected to two sides of the protective shell 11, a first door plate 12 is hinged to the front surface of the protective shell 11, the first door plate 12 is opened, a lamp to be crushed is placed on a transverse plate 210, a slider 23 is started by electrifying, the slider 23 moves on a sliding rail 22, the slider 23 drives a transverse rod 24 to move in the moving process of the sliding rail 22, and further a roller 27 under a telescopic rod 25 moves along with the sliding rail, the roller 27 is placed on the transverse plate 210 through the extension of the telescopic rod 25, the elastic length of a first spring 26 is greater than the stretching length of the telescopic rod 25, so that the roller 27 can be extruded to be attached to the transverse plate 210 under the elasticity of the first spring 26, the roller 27 has gravity, and then extrudes the lamp, the movement of the slider 23 on the sliding rail 22 enables the roller 27 to move back and forth to extrude the lamp, so that plastics in the lamp are extruded and flattened, glass in the lamp is extruded and crushed, a waste material discharge port 15 is formed in the bottom of the protective shell 11, a waste material collection box 14 is arranged at the bottom of the protective shell, the outer wall of the protective shell 11, the protective shell is fixedly connected with an air flow extrusion mechanism 2, and the inner wall of the protective shell 11, and the protection mechanism 11;

the movable extrusion mechanism 2 comprises a transverse plate 210, the inner wall of the protective shell 11 is fixedly connected with the outer wall of the transverse plate 210, the left side of the transverse plate 210 is fixedly connected with an arc-shaped block 29, the left side of the arc-shaped block 29 is fixedly connected with one end of a connecting rod 21, the other end of the connecting rod 21 is fixedly connected with a sliding rail 22, the outer wall of the sliding rail 22 is slidably connected with a sliding block 23, the bottom of the sliding block 23 is fixedly connected with a transverse rod 24, a roller 27 drives a part of lamps to move in the moving process, when the lamps move to the arc-shaped block 29, the arc-shaped block 29 is arc-shaped, when the lamps move to the arc-shaped block 29, a part of the lamps can rotate and move reversely, so that plastics and glass are scattered, and the plastics can turn over, then the roller 27 extrudes the glass on the other side of the plastics, a preset program controls the sliding block 23 to stop returning and crushing before the sliding block moves to the right end of the transverse plate 210 in the crushing process, after the subsequent glass is completely collected, the roller 27 can move to the right end of the transverse plate 210 under the manual control, so as to drive the plastics to move to the plastics to fall into the waste collection box 14 for storage, the bottom of the collection box is fixedly connected with a first spring 25 fixedly connected with the outer wall of the telescopic rod 24, and a bearing 28 is connected with a telescopic rod bearing 27 connected with a telescopic rod bearing 28;

when in use: opening the first door panel 12, placing a lamp to be crushed on the transverse plate 210, electrifying the slider 23 to start, moving the slider 23 on the slide rail 22, driving the movement of the cross rod 24 by the slider 23 in the moving process of the slide rail 22, further enabling the roller 27 under the telescopic rod 25 to move along, placing the roller 27 on the transverse plate 210 through the extension of the telescopic rod 25, enabling the elastic length of the first spring 26 to be larger than the stretching length of the telescopic rod 25, extruding the roller 27 to be attached to the transverse plate 210 under the elasticity of the first spring 26, enabling the roller 27 to have gravity to extrude the lamp, enabling the roller 27 to move back and forth to extrude the lamp through the movement of the slider 23 on the slide rail 22, enabling plastic in the lamp to be extruded and flattened, extruding and crushing glass in the lamp, driving the roller 27 to drive a part of the lamp to move in the moving process, enabling the arc-shaped block 29 to be arc-shaped when the lamp moves to the arc-shaped block 29, enabling a part of the lamp to be inverted and move reversely, enabling the plastic and glass to be separated, enabling the roller 27 to extrude the glass on the other side of the arc-shaped block 29, enabling the slider to move to be pushed to move to the right side of the slide plate 14, enabling the slider to be controlled to move to be manually and be stored in the plastic to be collected in the front side of the transverse plate 14, and then to be controlled to be moved to be collected in the plastic collecting box, and collected, and then the plastic to be manually, and the plastic to be controlled to be moved to be collected in the front side of the plastic collecting box, and crushed.

Example two

With continued reference to fig. 6-7, based on the first embodiment, the following features are added:

the airflow suction mechanism 3 comprises a first pipeline 31, airflow can flow upwards along an arc-shaped block 29 after passing through a transverse plate 210, after the glass is extruded and crushed, the blown airflow can drive the crushed glass to ascend, then the ascending glass powder is sucked under the suction of the first pipeline 31, the sucked powder is conveyed into a glass storage box 35 through a second pipeline 34, the airflow and the powder are filtered and separated through a sponge block 310, so that the powder is stored in the glass storage box 35, the top of the protective shell 11 is fixedly connected with one end of the first pipeline 31, the top of the sliding block 23 is fixedly connected with a second spring 39, and the top of the second spring 39 is fixedly connected with a fan plate 38;

the other end of the first pipeline 31 is fixedly connected with a fan 32, in the process that the roller 27 extrudes the lamp, the fan 32 is electrified and started, the fan 32 is connected to the top of the protective shell 11 through the first pipeline 31, the fan 32 is connected to the airflow bin 37 through the second pipeline 34, the fan 32 blows out airflow through an airflow opening 311 in the airflow bin 37, the airflow blows out from the transverse plate 210, when the airflow blows out, the blowing-out of the airflow can drive the plastic and the glass to move towards the arc-shaped block 29, and the outer wall of the fan 32 is fixedly connected with one end of the support 33;

the other end of the bracket 33 is fixedly connected with the outer wall of the fixed frame 13, and the bottom of the fan 32 is fixedly connected with one end of a second pipeline 34;

the second pipeline 34 is fixedly connected with a glass storage tank 35, and the outer wall of the glass storage tank 35 is fixedly connected with the right side of the protective shell 11;

the inner wall of the glass storage box 35 is fixedly connected with a sponge block 310, the sponge block 310 is obliquely arranged, so that powder accumulated on the sponge block 310 falls along the oblique direction, the sponge block 310 is prevented from being blocked, the filtered air flow continues to be blown out, after the work is finished, the second door panel 36 is opened, the powder in the glass storage box 35 can be taken out, and the front surface of the glass storage box 35 is hinged with the second door panel 36;

the other end of the second pipeline 34 is fixedly connected with an airflow bin 37, and the outer wall of the airflow bin 37 is fixedly connected with the right side of the protective shell 11;

the airflow bin 37 is communicated with the inside of the protective shell 11, the airflow bin 37 is positioned at the position of the transverse plate 210, and the inner wall of the airflow bin 37 is provided with an airflow port 311;

when in use: in the process that the roller 27 presses the lamp, the fan 32 is powered on and started, the fan 32 is connected to the top of the protective shell 11 through the first pipeline 31, the fan 32 is connected to the airflow bin 37 through the second pipeline 34, the fan 32 blows out airflow through the airflow opening 311 in the airflow bin 37, the airflow blows out from the transverse plate 210, when the airflow blows out, the airflow blows out and drives the plastic and the glass to move towards the direction of the arc-shaped block 29, the airflow flows upwards along the arc-shaped block 29 after passing through the transverse plate 210, after the glass is squeezed and crushed, the airflow blows out and drives the crushed glass to ascend, then the ascending glass powder is sucked through the first pipeline 31, the sucked powder is conveyed into the glass storage box 35 through the second pipeline 34, the airflow and the powder are filtered and separated through the sponge block 310, the powder is stored in the glass storage box 35, the sponge block 310 is obliquely arranged, the powder accumulated on the sponge block 310 falls obliquely, the sponge block 310 is prevented from being blocked, the airflow continues to blow out, and the powder in the glass storage box 35 can be taken out by opening the second door panel 36 after work is finished.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Lamps and lanterns production waste screening equipment, including lamps and lanterns storage mechanism (1), its characterized in that: the lamp storage mechanism (1) comprises a protective shell (11), two fixing frames (13) are fixedly connected to two sides of the protective shell (11), a first door plate (12) is hinged to the front face of the protective shell (11), a waste discharge port (15) is formed in the bottom of the protective shell (11), a collecting box (14) is arranged at the bottom of the protective shell (11), the outer wall of the collecting box (14) is fixedly connected with the outer walls of the fixing frames (13), an airflow suction mechanism (3) is fixedly connected to the top of the protective shell (11), and a movable extrusion mechanism (2) is fixedly connected to the inner wall of the protective shell (11);

activity extrusion mechanism (2) are including diaphragm (210), the inner wall of protecting crust (11) and the outer wall fixed connection of diaphragm (210), the left side fixedly connected with arc piece (29) of diaphragm (210), the one end of the left side fixedly connected with connecting rod (21) of arc piece (29), the other end fixedly connected with slide rail (22) of connecting rod (21), the outer wall sliding connection of slide rail (22) has slider (23), the bottom fixedly connected with horizontal pole (24) of slider (23), the bottom fixedly connected with telescopic link (25) of horizontal pole (24), the first spring (26) of outer wall fixedly connected with of telescopic link (25), the bottom fixedly connected with bearing (28) of telescopic link (25), the outer wall rotation of bearing (28) is connected with gyro wheel (27).

2. The luminaire production waste screening apparatus of claim 1, wherein: airflow suction mechanism (3) includes first pipeline (31), the top of protecting crust (11) and the one end fixed connection of first pipeline (31), the top fixedly connected with second spring (39) of slider (23), the top fixedly connected with fan aerofoil (38) of second spring (39).

3. The luminaire production waste screening apparatus of claim 2, wherein: the other end fixedly connected with fan (32) of first pipeline (31), the outer wall fixedly connected with one end of support (33) of fan (32).

4. The luminaire production waste screening apparatus of claim 3, wherein: the other end of the support (33) is fixedly connected with the outer wall of the fixing frame (13), and the bottom of the fan (32) is fixedly connected with one end of a second pipeline (34).

5. The luminaire production waste screening apparatus of claim 4, wherein: the second pipeline (34) is fixedly connected with a glass storage box (35), and the outer wall of the glass storage box (35) is fixedly connected with the right side of the protective shell (11).

6. Lamp production waste screening apparatus according to claim 5, wherein: the inner wall of the glass storage box (35) is fixedly connected with a sponge block (310), and the front face of the glass storage box (35) is hinged with a second door panel (36).

7. The luminaire production waste screening apparatus of claim 4, wherein: the other end fixedly connected with air current storehouse (37) of second pipeline (34), the outer wall and the right side fixed connection of protecting crust (11) in air current storehouse (37).

8. The luminaire production waste screening apparatus of claim 7, wherein: the airflow bin (37) is communicated with the inside of the protective shell (11), the airflow bin (37) is located on the transverse plate (210), and an airflow opening (311) is formed in the inner wall of the airflow bin (37).