CN220611582U - Dust removing device - Google Patents

Abstract

The utility model discloses a dust removing device, comprising: the dust collecting shell comprises a dust collecting cavity, a dust collecting port and a dust outlet, wherein the dust collecting port and the dust outlet are formed in the dust collecting cavity; the tool is used for bearing and positioning a lampshade, the tool is covered at the dust collection port and is provided with an air flow channel in a penetrating way, the lampshade covers one end of the air flow channel, and the dust collection port is communicated with the other end of the air flow channel; the dust removing mechanism is arranged in the dust collecting cavity and comprises an air gun component facing the dust collecting port; the dust removing surface of the lampshade faces the air flow channel, and air flow blown out of the air gun assembly can be blown to the dust removing surface of the lampshade through the dust collecting opening and the air flow channel. By adopting the structure, dust can not fly outside, and the dust blown off the lampshade can flow into the dust collection cavity through the airflow channel and the dust collection port and flow out of the dust outlet, so that the cleanliness of the surrounding area of the lampshade is improved, and the environment of air can not be polluted.

Description

Dust removing device

Technical Field

The utility model relates to the technical field of automatic assembly equipment, in particular to a dust removing device.

Background

In the production and assembly process of the car lamp, dust removal is needed on the inner surface of the lamp shade, and then the lamp shade and the lamp holder are assembled together. In the prior art, an ion air gun is generally adopted to directly blow to the inner surface of the lampshade, so that dust is scattered, the cleanliness of the surrounding area of the lampshade is poor, the cleaning is time-consuming and labor-consuming, the air environment is easy to pollute, and the health of operators is not facilitated.

Accordingly, there is a need for an improvement over the prior art to overcome the deficiencies described in the prior art.

Disclosure of Invention

The utility model aims to provide a dust removing device, and dust cannot scatter in the dust removing process of a car lamp.

The utility model aims at realizing the following technical scheme: a dust removing apparatus comprising:

the dust collecting shell comprises a dust collecting cavity, a dust collecting port and a dust outlet, wherein the dust collecting port and the dust outlet are formed in the dust collecting cavity;

the tool is used for bearing and positioning a lampshade, the tool is covered at the dust collection port and is provided with an air flow channel in a penetrating way, the lampshade covers one end of the air flow channel, and the dust collection port is communicated with the other end of the air flow channel;

the dust removing mechanism is arranged in the dust collecting cavity and comprises an air gun component facing the dust collecting port;

the dust removing surface of the lampshade faces the air flow channel, and air flow blown out of the air gun assembly can be blown to the dust removing surface of the lampshade through the dust collecting opening and the air flow channel.

Further, the dust collecting port is located at the top of the dust collecting cavity, the dust outlet is located at the bottom of the dust collecting cavity, the air flow channel is formed by being formed in a vertical direction, and the blowing direction of the air gun assembly is consistent with the vertical direction.

Further, the dust collection cavity is of a bucket-shaped structure.

Further, the projection of the dust collection opening in the vertical direction completely covers the air flow channel, and the projection of the air flow channel in the vertical direction completely covers the surface to be dedusted of the lampshade.

Further, the frock includes:

a base plate which is covered at the dust collecting port;

the positioning seat is fixed on one surface of the base plate, which is away from the dust collection port, and is used for bearing and positioning the lampshade;

the air flow channel is formed by matching the base plate with the positioning seat.

Further, the dust removing device further comprises a machine table, the dust collecting shell is fixed in the machine table, the dust collecting opening is abutted against a table plate of the machine table, the tool is detachably borne on the table plate, and a second avoiding opening is formed in the position, corresponding to the dust collecting opening and the airflow channel, of the table plate in a penetrating mode along the vertical direction.

Further, the projection of the second avoidance port in the vertical direction completely covers the airflow channel.

Further, the dust removing mechanism further comprises a linear module fixed in the dust collecting cavity, the air gun assembly is in transmission connection with the linear module, and the linear module is suitable for driving the air gun assembly to move so that the air gun assembly corresponds to different positions of the dust removing surface of the lampshade.

Further, the number of the air gun assemblies is two, and the linear module is suitable for driving the two air gun assemblies to move oppositely or reversely.

Further, the dust removing device comprises a filter which is in butt joint with the dust outlet, and dust flowing out of the dust outlet can be filtered through the filter.

Compared with the prior art, the utility model has the following beneficial effects: according to the dust-collecting device, the structure is adopted, the air flow blown out of the air gun assembly can be blown to the surface to be dedusted of the lamp shade through the dust collecting opening and the air flow channel, so that the surface is blown to be dedusted for subsequent assembly, and in the dedusting process, as the lamp shade is covered at the end part of the air flow channel, dust cannot fly outside, the dust blown out of the lamp shade can flow into the dust collecting cavity through the air flow channel and the dust collecting opening and flow out of the dust outlet, the cleanliness of the surrounding area of the lamp shade is improved, and the air environment cannot be polluted.

Drawings

Fig. 1 is a schematic structural view of a dust removing device of the present utility model.

Fig. 2 is a schematic cross-sectional view of the dust removing device of the present utility model.

Fig. 3 is a schematic exploded view of the dust removing device of the present utility model.

Fig. 4 is a schematic cross-sectional view of the dust collection housing and dust removal mechanism of the present utility model.

Fig. 5 is a schematic structural diagram of the tooling in the present utility model.

Reference numerals illustrate:

100. a dust collecting case; 110. a dust collection chamber; 120. a dust collection port; 130. a dust outlet; 200. a tool; 210. an air flow channel; 220. a substrate; 221. a first avoidance port; 230. a positioning seat; 231. a simulated groove; 300. a lamp shade; 400. a dust removing mechanism; 410. a wind gun assembly; 420. a linear module; 500. a machine table; 510. a platen; 511. a second avoidance port; 520. a gas source; 600. and (3) a filter.

Detailed Description

In order to make the above objects, features and advantages of the present application more comprehensible, embodiments accompanied with figures are described in detail below. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not limiting. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present application are shown in the drawings. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

The terms "comprising" and "having" and any variations thereof herein are intended to cover a non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed steps or elements but may include other steps or elements not listed or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the present application. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1 to 5, a dust removing apparatus according to a preferred embodiment of the present utility model includes: the dust collecting shell 100 comprises a dust collecting cavity 110, a dust collecting opening 120 and a dust outlet 130 which are arranged on the dust collecting cavity 110; the tool 200 is used for bearing and positioning the lampshade 300, the tool 200 is covered at the dust collection port 120 and is provided with an air flow channel 210 in a penetrating way, the lampshade 300 covers one end of the air flow channel 210, and the dust collection port 120 is communicated with the other end of the air flow channel 210; a dust removing mechanism 400 installed in the dust collecting chamber 110, the dust removing mechanism 400 including a wind gun assembly 410 facing the dust collecting port 120; the surface to be cleaned of the lamp housing 300 faces the airflow channel 210, and the airflow blown out from the air gun assembly 410 can be blown to the surface to be cleaned of the lamp housing 300 through the dust collecting opening 120 and the airflow channel 210.

With the above structure, the air flow blown out by the air gun assembly 410 can be blown to the surface to be dedusted of the lampshade 300 through the dust collecting opening 120 and the air flow channel 210, so that the surface is blown to be dedusted for subsequent assembly, and in the dedusting process, because the lampshade 300 is covered at the end part of the air flow channel 210, dust cannot fly outside, and the dust blown out of the lampshade 300 can flow into the dust collecting cavity 110 through the air flow channel 210 and the dust collecting opening 120 and flow out from the dust outlet 130, so that the cleanliness of the surrounding area of the lampshade 300 is improved, and the air environment cannot be polluted.

Further, the dust collecting port 120 is located at the top of the dust collecting chamber 110, the dust outlet 130 is located at the bottom of the dust collecting chamber 110, the air flow channel 210 is formed by opening along the vertical direction, and the blowing direction of the air gun assembly 410 is consistent with the vertical direction. By adopting the above structure, the dust detached from the lamp housing 300 can better flow into the dust collection chamber 110 along the air flow path 210 by gravity and flow out of the dust outlet 130. Preferably, the dust collection chamber 110 is constructed in a bucket-like structure to better collect dust to the dust outlet 130.

Further, the projection of the dust collection port 120 in the vertical direction completely covers the airflow channel 210, so that the dust collection port 120 is prevented from obstructing the airflow blown by the air gun assembly 410 from flowing to the airflow channel 210. The projection of the airflow channel 210 in the vertical direction completely covers the surface to be dedusted of the lampshade 300, so that the airflow channel 210 is prevented from blocking the airflow blown by the air gun assembly 410 to flow to the surface to be dedusted.

Further, the tooling 200 includes a substrate 220 and a positioning seat 230 fixedly connected with the substrate 220. The substrate 220 is capped at the dust collecting opening 120, and a first avoiding opening 221 is formed at a position of the substrate 220 corresponding to the dust collecting opening 120 in a penetrating manner along a vertical direction. The positioning seat 230 is located on a surface of the base plate 220 facing away from the dust collecting opening 120, and the positioning seat 230 is used for carrying and positioning the lampshade 300. The positioning seat 230 is a hollow structure penetrating in the vertical direction, and the inner portion of the positioning seat 230 and the first avoiding opening 221 cooperate to form the airflow channel 210. The top of the positioning seat 230 is formed with a profiling groove 231 adapted to the outer contour of the lampshade 300, the lampshade 300 is embedded in the profiling groove 231, and the surface to be dedusted of the lampshade 300 is specifically the inner surface of the lampshade 300. When the lamp housing 300 is placed in the molding groove 231, it can close the end of the positioning seat 230 away from the base plate 220.

Further, the dust removing device further comprises a machine 500, the dust collecting shell 100 is fixed in the machine 500, the dust collecting opening 120 is close to the platen 510 of the machine 500, the tool 200 is detachably carried on the platen 510, the platen 510 is provided with a second avoidance opening 511 in a penetrating manner along the vertical direction corresponding to the positions of the dust collecting opening 120 and the airflow channel 210, and the dust collecting opening 120 and the airflow channel 210 are communicated through the second avoidance opening 511. Preferably, the projection of the second avoidance port 511 in the vertical direction completely covers the airflow channel 210, so that the second avoidance port 511 prevents the airflow from flowing to the airflow channel 210.

An air source 520 is provided in the machine 500, and the air source 520 is communicated with the air gun assembly 410 through an air pipe (not shown), so as to supply air to the air gun assembly 410. In this embodiment, the air gun assembly 410 may be an ion air gun, so as to blow off dust adhering to the surface of the lamp housing 300 effectively.

Further, the dust removing mechanism 400 further comprises a linear module 420 fixed in the dust collecting cavity 110, the air gun assembly 410 is in transmission connection with the linear module 420, and the linear module 420 is suitable for driving the air gun assembly 410 to move so that the air gun assembly 410 corresponds to different positions of the dust removing surface of the lampshade 300. In the present embodiment, the linear modules 420 are specifically disposed along the length direction of the lampshade 300. Since the lamp shade 300 is oblong, by adopting the above structure, it is possible to ensure that the air gun assembly 410 completely covers the entire surface of the lamp shade 300 to be dust-removed. Preferably, in order to improve the dust removal efficiency, in the present embodiment, the linear module 420 is a bidirectional module, the number of the air gun assemblies 410 is two, and the linear module 420 is suitable for driving the two air gun assemblies 410 to move oppositely or reversely at the same time to match with dust removal of the lampshade 300.

Further, the dust removing device further comprises a filter 600 in butt joint with the dust outlet 130, the filter 600 is specifically an air filter, dust flowing out of the dust outlet 130 can be sucked into the filter 600, and the filter 600 can filter the dust so as to enable clean air to flow out and collect the dust in a concentrated manner, so that the subsequent treatment is facilitated. Preferably, the filter 600 is located outside the machine 500, thereby facilitating the operation of the filter 600.

The dust removing device of the utility model has the following working processes: the lamp shade 300 to be dedusted is placed on the positioning seat 230 to close the top end of the airflow channel 210, then the dedusting mechanism 400 is started, the air gun assembly 410 blows the airflow vertically upwards, meanwhile, the linear module 420 drives the air gun assembly 410 to move along the horizontal direction, the airflow can flow into the airflow channel 210 through the dust collection port 120 and the second avoidance port 511 in sequence and blow to the surface to be dedusted of the lamp shade 300, after dedusting is finished, the air gun assembly 410 stops blowing, the linear module 420 drives the air gun assembly 410 to reset, and the dust separated from the lamp shade 300 flows into the dust collection cavity 110 through the second avoidance port 511 and the dust collection port 120 along the airflow channel 210 under the action of gravity and is converged into the dust outlet 130, and the filter 600 sucks the dust outlet 130 so that the dust flows into the filter 600 and is filtered and collected.

The foregoing description is only of embodiments of the present application, and is not intended to limit the scope of the patent application, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present application or direct or indirect application in other related technical fields are included in the scope of the patent protection of the present application.

Claims (10)

1. A dust removing apparatus, comprising:

the dust collecting shell (100) comprises a dust collecting cavity (110), a dust collecting opening (120) and a dust outlet (130), wherein the dust collecting opening (120) is formed in the dust collecting cavity (110);

the tool (200) is used for bearing and positioning a lampshade (300), the tool (200) is covered at the dust collection port (120) and is provided with an air flow channel (210) in a penetrating way, the lampshade (300) covers one end of the air flow channel (210), and the dust collection port (120) is communicated with the other end of the air flow channel (210);

a dust removal mechanism (400) mounted within the dust collection chamber (110), the dust removal mechanism (400) including a air gun assembly (410) directed toward the dust collection port (120);

wherein the dust-removing surface of the lamp cover (300) faces the air flow channel (210), and the air flow blown out from the air gun assembly (410) can be blown to the dust-removing surface of the lamp cover (300) through the dust collecting opening (120) and the air flow channel (210).

2. The dust collector of claim 1, wherein the dust collecting port (120) is located at a top of the dust collecting chamber (110), the dust outlet (130) is located at a bottom of the dust collecting chamber (110), the air flow channel (210) is formed by opening the air flow channel in a vertical direction, and a blowing direction of the air gun assembly (410) is consistent with the vertical direction.

3. The dust removal device of claim 2, wherein the dust collection chamber (110) is of a bucket-like configuration.

4. The dust removing device according to claim 2, wherein a projection of the dust collecting opening (120) in a vertical direction completely covers the air flow passage (210), and a projection of the air flow passage (210) in a vertical direction completely covers a surface to be dust removed of the lamp housing (300).

5. The dust removal device according to claim 2, wherein the tooling (200) comprises:

a base plate (220) capped at the dust collection port (120);

the positioning seat (230) is fixed on one surface of the base plate (220) away from the dust collection port (120), and the positioning seat (230) is used for bearing and positioning the lampshade (300);

wherein, the air flow channel (210) is formed by matching the base plate (220) and the positioning seat (230).

6. The dust removal device as set forth in claim 2, further comprising a machine (500), the dust collecting housing (100) being fixed in the machine (500), the dust collecting opening (120) being abutted against a platen (510) of the machine (500), the tool (200) being detachably carried on the platen (510), a second avoiding opening (511) being provided through in a vertical direction at a position of the platen (510) corresponding to the dust collecting opening (120) and the air flow passage (210).

7. The dust removing device according to claim 6, characterized in that the projection of the second relief opening (511) in the vertical direction completely covers the air flow channel (210).

8. The dust removal apparatus as set forth in claim 1, wherein the dust removal mechanism (400) further comprises a linear module (420) fixed within the dust collection chamber (110), the air gun assembly (410) being in driving connection with the linear module (420), the linear module (420) being adapted to drive the air gun assembly (410) to move such that the air gun assembly (410) corresponds to different positions of the dust removal surface of the lamp housing (300).

9. The dust collector of claim 8, wherein the number of said air gun assemblies (410) is two, and said linear module (420) is adapted to drive said air gun assemblies (410) to move in opposite directions or in opposite directions.

10. The dust removal device of claim 1, including a filter (600) interfacing with the dust outlet (130), wherein dust flowing from the dust outlet (130) may be filtered through the filter (600).